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/* packet-erf.c
 * Routines for ERF encapsulation dissection
 *
 * Wireshark - Network traffic analyzer
 * By Gerald Combs <gerald@wireshark.org>
 * Copyright 1998 Gerald Combs
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
 */

#include "config.h"

#include <epan/packet.h>
#include <epan/expert.h>
#include <epan/prefs.h>
#include <epan/ipproto.h>
#include <epan/to_str.h>
#include <wsutil/str_util.h>
#include "packet-erf.h"

/*
*/
#include "wiretap/erf.h"

void proto_register_erf(void);
void proto_reg_handoff_erf(void);

#define DECHAN_MAX_LINE_RATE 5
#define DECHAN_MAX_VC_SIZE 5
#define DECHAN_MAX_AUG_INDEX 4

typedef struct sdh_g707_format_s
{
  guint8 m_sdh_line_rate;
  guint8 m_vc_size ;
  gint8 m_vc_index_array[DECHAN_MAX_AUG_INDEX];
        /* i = 3 --> ITU-T letter #D - index of AUG-16
         * i = 2 --> ITU-T letter #C - index of AUG-4,
         * i = 1 --> ITU-T letter #B - index of AUG-1
         * i = 0 --> ITU-T letter #A - index of AU3*/
} sdh_g707_format_t;

static dissector_handle_t erf_handle;
static dissector_table_t erf_dissector_table;

/* Initialize the protocol and registered fields */
static int proto_erf = -1;

static int hf_erf_ts          = -1;
static int hf_erf_rectype     = -1;
static int hf_erf_type        = -1;
static int hf_erf_ehdr        = -1;
static int hf_erf_ehdr_t      = -1;
static int hf_erf_flags       = -1;
static int hf_erf_flags_cap   = -1;
static int hf_erf_flags_vlen  = -1;
static int hf_erf_flags_trunc = -1;
static int hf_erf_flags_rxe   = -1;
static int hf_erf_flags_dse   = -1;
static int hf_erf_flags_res   = -1;

static int hf_erf_rlen = -1;
static int hf_erf_lctr = -1;
static int hf_erf_wlen = -1;

/* Classification extension header */

/* InterceptID extension header */
static int hf_erf_ehdr_int_res1 = -1;
static int hf_erf_ehdr_int_id   = -1;
static int hf_erf_ehdr_int_res2 = -1;

/* Raw Link extension header */
static int hf_erf_ehdr_raw_link_res    = -1;
static int hf_erf_ehdr_raw_link_seqnum = -1;
static int hf_erf_ehdr_raw_link_rate   = -1;
static int hf_erf_ehdr_raw_link_type   = -1;

/* Classification extension header */
static int hf_erf_ehdr_class_flags      = -1;
static int hf_erf_ehdr_class_flags_sh   = -1;
static int hf_erf_ehdr_class_flags_shm  = -1;
static int hf_erf_ehdr_class_flags_res1 = -1;
static int hf_erf_ehdr_class_flags_user = -1;
static int hf_erf_ehdr_class_flags_res2 = -1;
static int hf_erf_ehdr_class_flags_drop = -1;
static int hf_erf_ehdr_class_flags_str  = -1;
static int hf_erf_ehdr_class_seqnum     = -1;

/* BFS extension header */
static int hf_erf_ehdr_bfs_hash     = -1;
static int hf_erf_ehdr_bfs_color    = -1;
static int hf_erf_ehdr_bfs_raw_hash = -1;

/* Channelised extension header */
static int hf_erf_ehdr_chan_morebits                  = -1;
static int hf_erf_ehdr_chan_morefrag                  = -1;
static int hf_erf_ehdr_chan_seqnum                    = -1;
static int hf_erf_ehdr_chan_res                       = -1;
static int hf_erf_ehdr_chan_virt_container_id         = -1;
static int hf_erf_ehdr_chan_assoc_virt_container_size = -1;
static int hf_erf_ehdr_chan_rate                      = -1;
static int hf_erf_ehdr_chan_type                      = -1;

/* Filter Hash extension header */
static int hf_erf_ehdr_signature_payload_hash = -1;
static int hf_erf_ehdr_signature_color = -1;
static int hf_erf_ehdr_signature_flow_hash = -1;

/* Flow ID extension header */
static int hf_erf_ehdr_flow_id_source_id = -1;
static int hf_erf_ehdr_flow_id_hash_type = -1;
static int hf_erf_ehdr_flow_id_stack_type = -1;
static int hf_erf_ehdr_flow_id_flow_hash = -1;

/* Host ID extension header */
static int hf_erf_ehdr_host_id_sourceid          = -1;
static int hf_erf_ehdr_host_id_hostid            = -1;

/* Generated Host ID/Source ID */
static int hf_erf_sourceid       = -1;
static int hf_erf_hostid         = -1;
static int hf_erf_source_current = -1;
static int hf_erf_source_next    = -1;
static int hf_erf_source_prev    = -1;

/* Unknown extension header */
static int hf_erf_ehdr_unk = -1;

/* MC HDLC Header */
static int hf_erf_mc_hdlc        = -1;
static int hf_erf_mc_hdlc_cn     = -1;
static int hf_erf_mc_hdlc_res1   = -1;
static int hf_erf_mc_hdlc_res2   = -1;
static int hf_erf_mc_hdlc_fcse   = -1;
static int hf_erf_mc_hdlc_sre    = -1;
static int hf_erf_mc_hdlc_lre    = -1;
static int hf_erf_mc_hdlc_afe    = -1;
static int hf_erf_mc_hdlc_oe     = -1;
static int hf_erf_mc_hdlc_lbe    = -1;
static int hf_erf_mc_hdlc_first  = -1;
static int hf_erf_mc_hdlc_res3   = -1;

/* MC RAW Header */
static int hf_erf_mc_raw       = -1;
static int hf_erf_mc_raw_int   = -1;
static int hf_erf_mc_raw_res1  = -1;
static int hf_erf_mc_raw_sre   = -1;
static int hf_erf_mc_raw_lre   = -1;
static int hf_erf_mc_raw_res2  = -1;
static int hf_erf_mc_raw_lbe   = -1;
static int hf_erf_mc_raw_first = -1;
static int hf_erf_mc_raw_res3  = -1;

/* MC ATM Header */
static int hf_erf_mc_atm         = -1;
static int hf_erf_mc_atm_cn      = -1;
static int hf_erf_mc_atm_res1    = -1;
static int hf_erf_mc_atm_mul     = -1;
static int hf_erf_mc_atm_port    = -1;
static int hf_erf_mc_atm_res2    = -1;
static int hf_erf_mc_atm_lbe     = -1;
static int hf_erf_mc_atm_hec     = -1;
static int hf_erf_mc_atm_crc10   = -1;
static int hf_erf_mc_atm_oamcell = -1;
static int hf_erf_mc_atm_first   = -1;
static int hf_erf_mc_atm_res3    = -1;

/* MC Raw link Header */
static int hf_erf_mc_rawl       = -1;
static int hf_erf_mc_rawl_cn    = -1;
static int hf_erf_mc_rawl_res1  = -1;
static int hf_erf_mc_rawl_lbe   = -1;
static int hf_erf_mc_rawl_first = -1;
static int hf_erf_mc_rawl_res2  = -1;

/* MC AAL5 Header */
static int hf_erf_mc_aal5       = -1;
static int hf_erf_mc_aal5_cn    = -1;
static int hf_erf_mc_aal5_res1  = -1;
static int hf_erf_mc_aal5_port  = -1;
static int hf_erf_mc_aal5_crcck = -1;
static int hf_erf_mc_aal5_crce  = -1;
static int hf_erf_mc_aal5_lenck = -1;
static int hf_erf_mc_aal5_lene  = -1;
static int hf_erf_mc_aal5_res2  = -1;
static int hf_erf_mc_aal5_first = -1;
static int hf_erf_mc_aal5_res3  = -1;

/* MC AAL2 Header */
static int hf_erf_mc_aal2       = -1;
static int hf_erf_mc_aal2_cn    = -1;
static int hf_erf_mc_aal2_res1  = -1;
static int hf_erf_mc_aal2_res2  = -1;
static int hf_erf_mc_aal2_port  = -1;
static int hf_erf_mc_aal2_res3  = -1;
static int hf_erf_mc_aal2_first = -1;
static int hf_erf_mc_aal2_maale = -1;
static int hf_erf_mc_aal2_lene  = -1;
static int hf_erf_mc_aal2_cid   = -1;

/* AAL2 Header */
static int hf_erf_aal2        = -1;
static int hf_erf_aal2_cid    = -1;
static int hf_erf_aal2_maale  = -1;
static int hf_erf_aal2_maalei = -1;
static int hf_erf_aal2_first  = -1;
static int hf_erf_aal2_res1   = -1;

/* ERF Ethernet header/pad */
static int hf_erf_eth      = -1;
static int hf_erf_eth_off  = -1;
static int hf_erf_eth_pad  = -1;

/* ERF Meta record tag */
static int hf_erf_meta_tag_type   = -1;
static int hf_erf_meta_tag_len  = -1;
static int hf_erf_meta_tag_unknown  = -1;

/* Initialize the subtree pointers */
static gint ett_erf            = -1;
static gint ett_erf_pseudo_hdr = -1;
static gint ett_erf_rectype    = -1;
static gint ett_erf_flags      = -1;
static gint ett_erf_mc_hdlc    = -1;
static gint ett_erf_mc_raw     = -1;
static gint ett_erf_mc_atm     = -1;
static gint ett_erf_mc_rawlink = -1;
static gint ett_erf_mc_aal5    = -1;
static gint ett_erf_mc_aal2    = -1;
static gint ett_erf_aal2       = -1;
static gint ett_erf_eth        = -1;
static gint ett_erf_meta       = -1;
static gint ett_erf_meta_tag   = -1;
static gint ett_erf_source     = -1;

static expert_field ei_erf_extension_headers_not_shown = EI_INIT;
static expert_field ei_erf_packet_loss = EI_INIT;
static expert_field ei_erf_checksum_error = EI_INIT;
static expert_field ei_erf_meta_section_len_error = EI_INIT;
static expert_field ei_erf_meta_reset = EI_INIT;

typedef enum {
  ERF_HDLC_CHDLC  = 0,
  ERF_HDLC_PPP    = 1,
  ERF_HDLC_FRELAY = 2,
  ERF_HDLC_MTP2   = 3,
  ERF_HDLC_GUESS  = 4,
  ERF_HDLC_MAX    = 5
} erf_hdlc_type_vals;

static gint erf_hdlc_type = ERF_HDLC_GUESS;
static dissector_handle_t chdlc_handle, ppp_handle, frelay_handle, mtp2_handle;

static gboolean erf_rawcell_first = FALSE;

typedef enum {
  ERF_AAL5_GUESS  = 0,
  ERF_AAL5_LLC    = 1,
  ERF_AAL5_UNSPEC = 2
} erf_aal5_type_val;

static gint erf_aal5_type = ERF_AAL5_GUESS;
static dissector_handle_t atm_untruncated_handle;

static gboolean erf_ethfcs = TRUE;

static dissector_handle_t sdh_handle;

/* ERF Header */
#define ERF_HDR_TYPE_MASK 0x7f
#define ERF_HDR_EHDR_MASK 0x80
#define ERF_HDR_FLAGS_MASK 0xff
#define ERF_HDR_CAP_MASK 0x03
#define ERF_HDR_VLEN_MASK 0x04
#define ERF_HDR_TRUNC_MASK 0x08
#define ERF_HDR_RXE_MASK 0x10
#define ERF_HDR_DSE_MASK 0x20
#define ERF_HDR_RES_MASK 0xC0

/* Classification */
#define EHDR_CLASS_FLAGS_MASK 0x00ffffff
#define EHDR_CLASS_SH_MASK    0x00800000
#define EHDR_CLASS_SHM_MASK   0x00400000
#define EHDR_CLASS_RES1_MASK  0x00300000
#define EHDR_CLASS_USER_MASK  0x000FFFF0
#define EHDR_CLASS_RES2_MASK  0x00000008
#define EHDR_CLASS_DROP_MASK  0x00000004
#define EHDR_CLASS_STER_MASK  0x00000003

/* Header for ATM traffic identification */
#define ATM_HDR_LENGTH 4

/* Multi Channel HDLC */
#define MC_HDLC_CN_MASK    0x000003ff
#define MC_HDLC_RES1_MASK  0x0000fc00
#define MC_HDLC_RES2_MASK  0x00ff0000
#define MC_HDLC_FCSE_MASK  0x01000000
#define MC_HDLC_SRE_MASK   0x02000000
#define MC_HDLC_LRE_MASK   0x04000000
#define MC_HDLC_AFE_MASK   0x08000000
#define MC_HDLC_OE_MASK    0x10000000
#define MC_HDLC_LBE_MASK   0x20000000
#define MC_HDLC_FIRST_MASK 0x40000000
#define MC_HDLC_RES3_MASK  0x80000000

/* Multi Channel RAW */
#define MC_RAW_INT_MASK   0x0000000f
#define MC_RAW_RES1_MASK  0x01fffff0
#define MC_RAW_SRE_MASK   0x02000000
#define MC_RAW_LRE_MASK   0x04000000
#define MC_RAW_RES2_MASK  0x18000000
#define MC_RAW_LBE_MASK   0x20000000
#define MC_RAW_FIRST_MASK 0x40000000
#define MC_RAW_RES3_MASK  0x80000000

/* Multi Channel ATM */
#define MC_ATM_CN_MASK      0x000003ff
#define MC_ATM_RES1_MASK    0x00007c00
#define MC_ATM_MUL_MASK     0x00008000
#define MC_ATM_PORT_MASK    0x000f0000
#define MC_ATM_RES2_MASK    0x00f00000
#define MC_ATM_LBE_MASK     0x01000000
#define MC_ATM_HEC_MASK     0x02000000
#define MC_ATM_CRC10_MASK   0x04000000
#define MC_ATM_OAMCELL_MASK 0x08000000
#define MC_ATM_FIRST_MASK   0x10000000
#define MC_ATM_RES3_MASK    0xe0000000

/* Multi Channel RAW Link */
#define MC_RAWL_CN_MASK    0x000003ff
#define MC_RAWL_RES1_MASK  0x1ffffc00
#define MC_RAWL_LBE_MASK   0x20000000
#define MC_RAWL_FIRST_MASK 0x40000000
#define MC_RAWL_RES2_MASK  0x80000000

/* Multi Channel AAL5 */
#define MC_AAL5_CN_MASK    0x000003ff
#define MC_AAL5_RES1_MASK  0x0000fc00
#define MC_AAL5_PORT_MASK  0x000f0000
#define MC_AAL5_CRCCK_MASK 0x00100000
#define MC_AAL5_CRCE_MASK  0x00200000
#define MC_AAL5_LENCK_MASK 0x00400000
#define MC_AAL5_LENE_MASK  0x00800000
#define MC_AAL5_RES2_MASK  0x0f000000
#define MC_AAL5_FIRST_MASK 0x10000000
#define MC_AAL5_RES3_MASK  0xe0000000

/* Multi Channel AAL2 */
#define MC_AAL2_CN_MASK    0x000003ff
#define MC_AAL2_RES1_MASK  0x00001c00
#define MC_AAL2_RES2_MASK  0x0000e000
#define MC_AAL2_PORT_MASK  0x000f0000
#define MC_AAL2_RES3_MASK  0x00100000
#define MC_AAL2_FIRST_MASK 0x00200000
#define MC_AAL2_MAALE_MASK 0x00400000
#define MC_AAL2_LENE_MASK  0x00800000
#define MC_AAL2_CID_MASK   0xff000000
#define MC_AAL2_CID_SHIFT  24

/* AAL2 */
#define AAL2_CID_MASK    0x000000ff
#define AAL2_CID_SHIFT   0
#define AAL2_MAALE_MASK  0x0000ff00
#define AAL2_MAALEI_MASK 0x00010000
#define AAL2_FIRST_MASK  0x00020000
#define AAL2_RES1_MASK   0xfffc0000

/* ETH */
#define ETH_OFF_MASK  0x00
#define ETH_RES1_MASK 0x00

/* Invalid MetaERF sections used for special lookup */
#define ERF_META_SECTION_NONE 0
#define ERF_META_SECTION_UNKNOWN 1

/* Record type defines */
static const value_string erf_type_vals[] = {
  { ERF_TYPE_LEGACY             ,"LEGACY"},
  { ERF_TYPE_HDLC_POS           ,"HDLC_POS"},
  { ERF_TYPE_ETH                ,"ETH"},
  { ERF_TYPE_ATM                ,"ATM"},
  { ERF_TYPE_AAL5               ,"AAL5"},
  { ERF_TYPE_MC_HDLC            ,"MC_HDLC"},
  { ERF_TYPE_MC_RAW             ,"MC_RAW"},
  { ERF_TYPE_MC_ATM             ,"MC_ATM"},
  { ERF_TYPE_MC_RAW_CHANNEL     ,"MC_RAW_CHANNEL"},
  { ERF_TYPE_MC_AAL5            ,"MC_AAL5"},
  { ERF_TYPE_COLOR_HDLC_POS     ,"COLOR_HDLC_POS"},
  { ERF_TYPE_COLOR_ETH          ,"COLOR_ETH"},
  { ERF_TYPE_MC_AAL2            ,"MC_AAL2 "},
  { ERF_TYPE_IP_COUNTER         ,"IP_COUNTER"},
  { ERF_TYPE_TCP_FLOW_COUNTER   ,"TCP_FLOW_COUNTER"},
  { ERF_TYPE_DSM_COLOR_HDLC_POS ,"DSM_COLOR_HDLC_POS"},
  { ERF_TYPE_DSM_COLOR_ETH      ,"DSM_COLOR_ETH "},
  { ERF_TYPE_COLOR_MC_HDLC_POS  ,"COLOR_MC_HDLC_POS"},
  { ERF_TYPE_AAL2               ,"AAL2"},
  { ERF_TYPE_PAD                ,"PAD"},
  { ERF_TYPE_INFINIBAND         , "INFINIBAND"},
  { ERF_TYPE_IPV4               , "IPV4"},
  { ERF_TYPE_IPV6               , "IPV6"},
  { ERF_TYPE_RAW_LINK           , "RAW_LINK"},
  { ERF_TYPE_INFINIBAND_LINK    , "INFINIBAND_LINK"},
  { ERF_TYPE_META               , "META"},
  {0, NULL}
};

/* Extended headers type defines */
static const value_string ehdr_type_vals[] = {
  { ERF_EXT_HDR_TYPE_CLASSIFICATION , "Classification"},
  { ERF_EXT_HDR_TYPE_INTERCEPTID    , "InterceptID"},
  { ERF_EXT_HDR_TYPE_RAW_LINK       , "Raw Link"},
  { ERF_EXT_HDR_TYPE_BFS            , "BFS Filter/Hash"},
  { ERF_EXT_HDR_TYPE_CHANNELISED    , "Channelised"},
  { ERF_EXT_HDR_TYPE_SIGNATURE      , "Signature"},
  { ERF_EXT_HDR_TYPE_FLOW_ID        , "Flow ID"},
  { ERF_EXT_HDR_TYPE_HOST_ID        , "Host ID"},
  { 0, NULL }
};


static const value_string raw_link_types[] = {
  { 0x00, "raw SONET"},
  { 0x01, "raw SDH"},
  { 0x02, "SONET spe"},
  { 0x03, "SDH spe"},
  { 0x04, "ds3"},
  { 0x05, "SONET spe w/o POH"},
  { 0x06, "SDH spe w/o POH"},
  { 0x07, "SONET line mode 2"},
  { 0x08, "SHD line mode 2"},
  { 0x09, "raw bit-level"},
  { 0x0A, "raw 10Gbe 66b"},
  { 0, NULL },
};

static const value_string raw_link_rates[] = {
  { 0x00, "reserved"},
  { 0x01, "oc3/stm1"},
  { 0x02, "oc12/stm4"},
  { 0x03, "oc48/stm16"},
  { 0x04, "oc192/stm64"},
  { 0, NULL },
};

static const value_string channelised_assoc_virt_container_size[] = {
  { 0x00, "unused field"},
  { 0x01, "VC-3 / STS-1"},
  { 0x02, "VC-4 / STS-3"},
  { 0x03, "VC-4-4c / STS-12"},
  { 0x04, "VC-4-16c / STS-48"},
  { 0x05, "VC-4-64c / STS-192"},
  { 0, NULL }
};

static const value_string channelised_rate[] = {
  { 0x00, "Reserved"},
  { 0x01, "STM-0 / STS-1"},
  { 0x02, "STM-1 / STS-3"},
  { 0x03, "STM-4 / STS-12"},
  { 0x04, "STM-16 / STS-48"},
  { 0x05, "STM-64 / STS-192"},
  { 0, NULL}
};

static const value_string channelised_type[] = {
  { 0x00, "SOH / TOH"},
  { 0x01, "POH"},
  { 0x02, "Container"},
  { 0x03, "POS Packet"},
  { 0x04, "ATM Cell"},
  { 0x05, "Positive justification bytes"},
  { 0x06, "Raw demultiplexed channel"},
  { 0, NULL}
};

static const value_string erf_hash_type[] = {
  { 0x00, "Not set"},
  { 0x01, "Non-IP (Src/Dst MACs, EtherType)"},
  { 0x02, "2-tuple (Src/Dst IP Addresses)"},
  { 0x03, "3-tuple (Src/Dst IP Addresses, IP Protocol)"},
  { 0x04, "4-tuple (Src/Dst IP Addresses, IP Protocol, Interface ID)"},
  { 0x05, "5-tuple (Src/Dst IP Addresses, IP Protocol, Src/Dst L4 Ports)"},
  { 0x06, "6-tuple (Src/Dst IP Addresses, IP Protocol, Src/Dst L4 Ports, Interface ID)"},
  { 0, NULL}
};

static const value_string erf_stack_type[] = {
  { 0x00, "Not set"},
  { 0x01, "Non-IP"},
  { 0x02, "No VLAN, IPv4"},
  { 0x03, "No VLAN, IPv6"},
  { 0x04, "One VLAN, IPv4"},
  { 0x05, "One VLAN, IPv6"},
  { 0x06, "Two VLANs, IPv4"},
  { 0x07, "Two VLANs, IPv6"},
  { 0, NULL}
};
static const value_string erf_port_type[] = {
  { 0x00, "Reserved"},
  { 0x01, "Capture Port"},
  { 0x02, "Timing Port"},
  { 0, NULL}
};

/* Used as templates for ERF_META_TAG_tunneling_mode */
static const header_field_info erf_tunneling_modes[] = {
  { "IP-in-IP", "ip_in_ip", FT_UINT32, BASE_DEC, NULL, 0x1, NULL, HFILL },
  /* 0x02 is currently unused and reserved */
  { "VXLAN", "vxlan", FT_UINT32, BASE_DEC, NULL, 0x4, NULL, HFILL },
  { "GRE", "gre", FT_UINT32, BASE_DEC, NULL, 0x8, NULL, HFILL },
  { "GTP", "gtp", FT_UINT32, BASE_DEC, NULL, 0x10, NULL, HFILL },
  { "MPLS over VLAN", "mpls_vlan", FT_UINT32, BASE_DEC, NULL, 0x20, NULL, HFILL }
};
/* XXX: Must be at least array_length(erf_tunneling_modes). */
#define ERF_HF_VALUES_PER_TAG 8

typedef struct {
  guint16 code;
  header_field_info hfinfo;
} erf_meta_hf_template_t;

typedef struct {
  gint ett_value;
  /*
   * XXX: Must be at least array_length(erf_tunneling_modes). Should change to
   * dynamic (possibly using new proto tree API) if many more fields defined.
   * Either that or add a value-string-like automatic bitmask flags proto_item.
   */
  int hf_values[ERF_HF_VALUES_PER_TAG];
} erf_meta_tag_info_ex_t;

typedef struct {
  guint16 code;
  guint16 section;
  const erf_meta_hf_template_t* tag_template;

  gint ett;
  int hf_value;
  erf_meta_tag_info_ex_t *extra;
  /* TODO: could add a type_value and callback here for greater flexibility */
} erf_meta_tag_info_t;

typedef struct {
  wmem_map_t* tag_table;
  wmem_array_t* hfri;
  wmem_array_t* ett;
  wmem_array_t* vs_list;
  wmem_array_t* vs_abbrev_list;
  erf_meta_tag_info_t* unknown_section_info;
} erf_meta_index_t;

typedef struct {
  wmem_map_t* source_map;
  guint64 implicit_host_id;
} erf_state_t;

typedef struct {
  wmem_tree_t* meta_tree;
  wmem_list_t* meta_list;
} erf_source_info_t;

#define ERF_SOURCE_KEY(host_id, source_id) (((guint64) host_id << 16) | source_id)
#define ERF_TAG_INFO_KEY(tag_info) (((guint32) (tag_info)->section << 16) | (tag_info)->code)

static erf_meta_index_t erf_meta_index;
static erf_state_t erf_state;

/*
 * XXX: These header_field_info are used as templates for dynamically building
 * per-section fields for each tag, as well as appropiate value_string arrays.
 * We abuse the abbrev field to store the short name of the tags.
 */
static const erf_meta_hf_template_t erf_meta_tags[] = {
  { ERF_META_TAG_padding,           { "Padding",                            "padding",           FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_comment,           { "Comment",                            "comment",           FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_gen_time,          { "Metadata Generation Time",           "gen_time",          FT_ABSOLUTE_TIME, ABSOLUTE_TIME_UTC, NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_parent_section,    { "Parent Section",                     "parent_section",    FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_reset,             { "Metadata Reset",                     "reset",             FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_event_time,        { "Event Time",                         "event_time",        FT_ABSOLUTE_TIME, ABSOLUTE_TIME_UTC, NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_host_id,           { "Host ID",                            "host_id",           FT_UINT64,        BASE_HEX,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_fcs_len,           { "FCS Length (bits)",                  "fcs_len",           FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_mask_ipv4,         { "Subnet Mask (IPv4)",                 "mask_ipv4",         FT_IPv4,          BASE_NETMASK,      NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_mask_cidr,         { "Subnet Mask (CIDR)",                 "mask_cidr",         FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },

  { ERF_META_TAG_org_name,          { "Organisation",                       "org_name",          FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_name,              { "Name",                               "name",              FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_descr,             { "Description",                        "descr",             FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_config,            { "Configuration",                      "config",            FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_datapipe,          { "Datapipe Name",                      "datapipe",          FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_app_name,          { "Application Name",                   "app_name",          FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_os,                { "Operating System",                   "os",                FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_hostname,          { "Hostname",                           "hostname",          FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_user,              { "User",                               "user",              FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_model,             { "Model",                              "model",             FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_fw_version,        { "Firmware Version",                   "fw_version",        FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_serial_no,         { "Serial Number",                      "serial_no",         FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ts_offset,         { "Timestamp Offset",                   "ts_offset",         FT_RELATIVE_TIME, BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ts_clock_freq,     { "Timestamp Clock Frequency (Hz)",     "ts_clock_freq",     FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_tzone,             { "Timezone Offset",                    "tzone",             FT_INT32,         BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_tzone_name,        { "Timezone Name",                      "tzone_name",        FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_loc_lat,           { "Location Latitude",                  "loc_lat",           FT_INT32,         BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_loc_long,          { "Location Longitude",                 "loc_long",          FT_INT32,         BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_snaplen,           { "Snap Length",                        "snaplen",           FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_card_num,          { "Card Number",                        "card_num",          FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_module_num,        { "Module Number",                      "module_num",        FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_access_num,        { "Access Number",                      "access_num",        FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stream_num,        { "Stream Number",                      "stream_num",        FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_loc_name,          { "Location Name",                      "loc_name",          FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_parent_file,       { "Parent Filename",                    "parent_file",       FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_filter,            { "Filter",                             "filter",            FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_flow_hash_mode,    { "Flow Hash Mode",                     "flow_hash_mode",    FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_tunneling_mode,    { "Tunneling Mode",                     "tunneling_mode",    FT_UINT32,        BASE_HEX,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_npb_format,        { "NPB Format",                         "npb_format",        FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_mem,               { "Memory",                             "mem",               FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_datamine_id,       { "Datamine ID",                        "datamine_id",       FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_rotfile_id,        { "Rotfile ID",                         "rotfile_id",        FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_rotfile_name,      { "Rotfile Name",                       "rotfile_name",      FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dev_name,          { "Device Name",                        "dev_name",          FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dev_path,          { "Device Canonical Path",              "dev_path",          FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_loc_descr,         { "Location Description",               "loc_descr",         FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_app_version,       { "Application Version",                "app_version",       FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_cpu_affinity,      { "CPU Affinity Mask",                  "cpu_affinity",      FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_cpu,               { "CPU Model",                          "cpu",               FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_cpu_phys_cores,    { "CPU Physical Cores",                 "cpu_phys_cores",    FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_cpu_numa_nodes,    { "CPU NUMA Nodes",                     "cpu_numa_nodes",    FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dag_attribute,     { "DAG Attribute",                      "dag_attribute",     FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dag_version,       { "DAG Software Version",               "dag_attribute",     FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },

  { ERF_META_TAG_if_num,            { "Interface Number",                   "if_num",            FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_vc,             { "Interface Virtual Circuit",          "if_vc",             FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_speed,          { "Interface Line Rate",                "if_speed",          FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_ipv4,           { "Interface IPv4 address",             "if_ipv4",           FT_IPv4,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_ipv6,           { "Interface IPv6 address",             "if_ipv6",           FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_mac,            { "Interface MAC address",              "if_mac",            FT_ETHER,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_eui,            { "Interface EUI-64 address",           "if_eui",            FT_EUI64,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_ib_gid,         { "Interface InfiniBand GID",           "if_ib_gid",         FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_ib_lid,         { "Interface InfiniBand LID",           "if_ib_lid",         FT_UINT16,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_wwn,            { "Interface WWN",                      "if_wwn",            FT_FCWWN,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_fc_id,          { "Interface FCID address",             "if_fc_id",          FT_BYTES,         SEP_DOT,           NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_tx_speed,       { "Interface TX Line Rate",             "if_tx_speed",       FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_erf_type,       { "Interface ERF type",                 "if_erf_type",       FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_link_type,      { "Interface link type",                "if_link_type",      FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_sfp_type,       { "Interface Transceiver type",         "if_sfp_type",       FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_rx_power,       { "Interface RX Optical Power",         "if_rx_power",       FT_INT32,         BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_tx_power,       { "Interface TX Optical Power",         "if_tx_power",       FT_INT32,         BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_link_status,    { "Interface Link Status",              "if_link_status",    FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_phy_mode,       { "Interface Endace PHY Mode",          "if_phy_mode",       FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_if_port_type,      { "Interface Port Type",                "if_port_type",      FT_UINT32,        BASE_DEC,          VALS(erf_port_type), 0x0, NULL, HFILL } },

  { ERF_META_TAG_src_ipv4,          { "Source IPv4 address",                "src_ipv4",          FT_IPv4,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_ipv4,         { "Destination IPv4 address",           "dest_ipv4",         FT_IPv4,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_ipv6,          { "Source IPv6 address",                "src_ipv6",          FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_ipv6,         { "Destination IPv6 address",           "dest_ipv6",         FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_mac,           { "Source MAC address",                 "src_mac",           FT_ETHER,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_mac,          { "Destination MAC address",            "dest_mac",          FT_ETHER,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_eui,           { "Source EUI-64 address",              "src_eui",           FT_EUI64,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_eui,          { "Destination EUI-64 address",         "dest_eui",          FT_EUI64,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_ib_gid,        { "Source InfiniBand GID address",      "src_ib_gid",        FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_ib_gid,       { "Destination InfiniBand GID address", "dest_ib_gid",       FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_ib_lid,        { "Source InfiniBand LID address",      "src_ib_lid",        FT_UINT16,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_ib_lid,       { "Destination InfiniBand LID address", "dest_ib_lid",       FT_UINT16,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_wwn,           { "Source WWN address",                 "src_wwn",           FT_FCWWN,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_wwn,          { "Destination WWN address",            "dest_wwn",          FT_FCWWN,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_fc_id,         { "Source FCID address",                "src_fc_id",         FT_BYTES,         SEP_DOT,           NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_fc_id,        { "Destination FCID address",           "dest_fc_id",        FT_BYTES,         SEP_DOT,           NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_src_port,          { "Source Port",                        "src_port",          FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_dest_port,         { "Destination Port",                   "dest_port",         FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ip_proto,          { "IP Protocol",                        "ip_proto",          FT_UINT32,        BASE_DEC|BASE_EXT_STRING, &ipproto_val_ext, 0x0, NULL, HFILL } },
  { ERF_META_TAG_flow_hash,         { "Flow Hash",                          "flow_hash",         FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_filter_match,      { "Filter Match",                       "filter_match",      FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_filter_match_name, { "Filter Match Name",                  "filter_match_name", FT_STRING,        BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_error_flags,       { "Error Flags",                        "error_flags",       FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },

  { ERF_META_TAG_start_time,        { "Start Time",                         "start_time",        FT_ABSOLUTE_TIME, ABSOLUTE_TIME_UTC, NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_end_time,          { "End Time",                           "end_time",          FT_ABSOLUTE_TIME, ABSOLUTE_TIME_UTC, NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_if_drop,      { "Interface Drop",                     "stat_if_drop",      FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_frames,       { "Packets Received",                   "stat_frames",       FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_bytes,        { "Bytes Received",                     "stat_bytes",        FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_cap,          { "Packets Captured",                   "stat_cap",          FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_cap_bytes,    { "Bytes Captured",                     "stat_cap_bytes",    FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_os_drop,      { "OS Drop",                            "stat_os_drop",      FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_ds_lctr,      { "Internal Error Drop",                "stat_ds_lctr",      FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_filter_match, { "Filter Match",                       "stat_filter_match", FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_filter_drop,  { "Filter Drop",                        "stat_filter_drop",  FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_too_short,    { "Packets Too Short",                  "stat_too_short",    FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_too_long,     { "Packets Too Long",                   "stat_too_long",     FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_rx_error,     { "Packets RX Error",                   "stat_rx_error",     FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_fcs_error,    { "Packets FCS Error",                  "stat_fcs_error",    FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_aborted,      { "Packets Aborted",                    "stat_aborted",      FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_proto_error,  { "Packets Protocol Error",             "stat_proto_error",  FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_b1_error,     { "SDH B1 Errors",                      "stat_b1_error",     FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_b2_error,     { "SDH B2 Errors",                      "stat_b2_error",     FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_b3_error,     { "SDH B3 Errors",                      "stat_b3_error",     FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_rei_error,    { "SDH REI Errors",                     "stat_rei_error",    FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_drop,         { "Packets Dropped",                    "stat_drop",         FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stat_buf_drop,     { "Buffer Drop",                        "stat_buf_drop",     FT_UINT64,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stream_drop,       { "Stream Drop",                        "stream_drop",       FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_stream_buf_drop,   { "Stream Buffer Drop",                 "stream_buf_drop",   FT_UINT32,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },

  { ERF_META_TAG_ns_host_ipv4,      { "IPv4 Name",                          "ns_host_ipv4",      FT_IPv4,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_host_ipv6,      { "IPv6 Name",                          "ns_host_ipv6",      FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_host_mac,       { "MAC Name",                           "ns_host_mac",       FT_ETHER,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_host_eui,       { "EUI Name",                           "ns_host_eui",       FT_EUI64,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_host_ib_gid,    { "InfiniBand GID Name",                "ns_host_ib_gid",    FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_host_ib_lid,    { "InfiniBand LID Name",                "ns_host_ib_lid",    FT_UINT16,        BASE_DEC,          NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_host_wwn,       { "WWN Name",                           "ns_host_wwn",       FT_FCWWN,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_host_fc_id,     { "FCID Name",                          "ns_host_fc_id",     FT_BYTES,         SEP_DOT,           NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_dns_ipv4,       { "Nameserver IPv4 address",            "ns_dns_ipv4",       FT_IPv4,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_ns_dns_ipv6,       { "Nameserver IPv6 address",            "ns_dns_ipv6",       FT_IPv6,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },

  { ERF_META_TAG_exthdr,            { "ERF Extension Header",               "exthdr",            FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_pcap_ng_block,     { "PCAP-NG Block",                      "pcap_ng_block",     FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_TAG_asn1,              { "ASN.1",                              "asn1",              FT_BYTES,         BASE_NONE,         NULL, 0x0, NULL, HFILL } }
};

/* Sections are also tags, but enumerate them seperately to make logic simpler */
static const erf_meta_hf_template_t erf_meta_sections[] = {
  /*
   * Some tags (such as generation time) can appear before the first section,
   * we group these together into a fake section for consistency.
   */
  { ERF_META_SECTION_NONE,          { "No Section",                         "section_none",      FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_UNKNOWN,       { "Unknown Section",                    "section_unknown",   FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },

  { ERF_META_SECTION_CAPTURE,       { "Capture Section",                    "section_capture",   FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_HOST,          { "Host Section",                       "section_host",      FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_MODULE,        { "Module Section",                     "section_module",    FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_INTERFACE,     { "Interface Section",                  "section_interface", FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_FLOW,          { "Flow Section",                       "section_flow",      FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_STATS,         { "Statistics Section",                 "section_stats",     FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_INFO,          { "Information Section",                "section_info",      FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_CONTEXT,       { "Context Section",                    "section_context",   FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_STREAM,        { "Stream Section",                     "section_stream",    FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_TRANSFORM,     { "Transform Section",                  "section_transform", FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_DNS,           { "DNS Section",                        "section_dns",       FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } },
  { ERF_META_SECTION_SOURCE,        { "Source Section",                     "section_source",    FT_NONE,          BASE_NONE,         NULL, 0x0, NULL, HFILL } }
};

static erf_meta_tag_info_ex_t* erf_meta_tag_info_ex_new(wmem_allocator_t *allocator) {
  gsize i = 0;
  erf_meta_tag_info_ex_t *extra = wmem_new0(allocator, erf_meta_tag_info_ex_t);

  extra->ett_value = -1;
  for (i = 0; i < array_length(extra->hf_values); i++) {
    extra->hf_values[i] = -1;
  }

  return extra;
}

static erf_meta_tag_info_t*
init_section_fields(wmem_array_t *hfri_table, wmem_array_t *ett_table, const erf_meta_hf_template_t *section)
{
  erf_meta_tag_info_t *section_info;
  gint                *ett_tmp; /* wmem_array_append needs actual memory to copy from */
  hf_register_info     hfri_tmp[] = {
    { NULL, { "Section ID", NULL, FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }}, /* Section ID */
    { NULL, { "Section Length", NULL, FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }},  /* Section Length */
    { NULL, { "Reserved", NULL, FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL }} /* Reserved extra bytes */
  };

  section_info = wmem_new0(wmem_epan_scope(), erf_meta_tag_info_t);
  section_info->code = section->code;
  section_info->section = section->code; /* Needed for lookup commonality */
  section_info->ett = -1;
  section_info->hf_value = -1;
  section_info->tag_template = section;
  section_info->extra = erf_meta_tag_info_ex_new(wmem_epan_scope());

  hfri_tmp[0].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.section_id", section->hfinfo.abbrev);
  hfri_tmp[0].p_id = &section_info->hf_value;
  hfri_tmp[1].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.section_len", section->hfinfo.abbrev);
  hfri_tmp[1].p_id = &section_info->extra->hf_values[0];
  hfri_tmp[2].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.section_hdr_rsvd", section->hfinfo.abbrev);
  hfri_tmp[2].p_id = &section_info->extra->hf_values[1];

  /* Add hf_register_info, ett entries */
  wmem_array_append(hfri_table, hfri_tmp, array_length(hfri_tmp));
  ett_tmp = &section_info->ett;
  wmem_array_append(ett_table, &ett_tmp, 1);
  ett_tmp = &section_info->extra->ett_value;
  wmem_array_append(ett_table, &ett_tmp, 1);

  return section_info;
}

static erf_meta_tag_info_t*
init_tag_fields(wmem_array_t *hfri_table, wmem_array_t *ett_table, const erf_meta_hf_template_t *section, const erf_meta_hf_template_t *tag)
{
  erf_meta_tag_info_t *tag_info;
  unsigned int         i = 0;
  gint                *ett_tmp; /* wmem_array_append needs actual memory to copy from */
  hf_register_info     hfri_tmp[] = {
    { NULL, { NULL, NULL, FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL }}, /* Value, will be filled from template */
    { NULL, { NULL, NULL, FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL }}  /* Second value, if any */
  };
  guint                hfri_len = 0;

  tag_info = wmem_new0(wmem_epan_scope(), erf_meta_tag_info_t);
  tag_info->code = tag->code;
  tag_info->section = section->code;
  tag_info->ett = -1;
  tag_info->hf_value = -1;
  tag_info->tag_template = tag;
  tag_info->extra = NULL;

  switch (tag_info->code) {
  /* Special case: parent section */
  case ERF_META_TAG_parent_section:
    tag_info->extra = erf_meta_tag_info_ex_new(wmem_epan_scope());

    hfri_tmp[0].p_id = &tag_info->hf_value;
    hfri_tmp[0].hfinfo.name = "Section Type";
    hfri_tmp[0].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s.section_type", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_tmp[0].hfinfo.type = FT_UINT16;
    hfri_tmp[0].hfinfo.display = BASE_DEC;
    /* XXX: Cannot set strings here as array may be realloced as more added! */
    hfri_len++;

    hfri_tmp[1].p_id = &tag_info->extra->hf_values[0];
    hfri_tmp[1].hfinfo.name = "Section ID";
    hfri_tmp[1].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s.section_id", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_tmp[1].hfinfo.type = FT_UINT16;
    hfri_tmp[1].hfinfo.display = BASE_DEC;
    hfri_len++;
    break;

  /* Special case: Link Status bits */
  case ERF_META_TAG_if_link_status:
    tag_info->extra = erf_meta_tag_info_ex_new(wmem_epan_scope());

    hfri_tmp[0].p_id = &tag_info->hf_value;
    hfri_tmp[0].hfinfo = tag->hfinfo;
    hfri_tmp[0].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_len++;

    hfri_tmp[1].p_id = &tag_info->extra->hf_values[0];
    hfri_tmp[1].hfinfo.name = "Link";
    hfri_tmp[1].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s.link", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_tmp[1].hfinfo.type = FT_UINT32;
    hfri_tmp[1].hfinfo.display = BASE_DEC;
    hfri_tmp[1].hfinfo.bitmask = 0x00000001;
    hfri_len++;
    break;

  /* Special case: Tunneling mode bits */
  case ERF_META_TAG_tunneling_mode:
    tag_info->extra = erf_meta_tag_info_ex_new(wmem_epan_scope());

    hfri_tmp[0].p_id = &tag_info->hf_value;
    hfri_tmp[0].hfinfo = tag->hfinfo;
    hfri_tmp[0].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_len++;

    /* Borrow hfri_tmp[1], inserting each bitfield value */
    for (i = 0; i < array_length(erf_tunneling_modes); i++) {
      hfri_tmp[1].p_id = &tag_info->extra->hf_values[i];
      hfri_tmp[1].hfinfo = erf_tunneling_modes[i];
      hfri_tmp[1].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s.%s", section->hfinfo.abbrev, tag->hfinfo.abbrev, erf_tunneling_modes[i].abbrev);
      wmem_array_append(hfri_table, &hfri_tmp[1], 1);
    }
    break;

  /* Special case: name entry */
  case ERF_META_TAG_ns_dns_ipv4:
  case ERF_META_TAG_ns_dns_ipv6:
  case ERF_META_TAG_ns_host_ipv4:
  case ERF_META_TAG_ns_host_ipv6:
  case ERF_META_TAG_ns_host_mac:
  case ERF_META_TAG_ns_host_eui:
  case ERF_META_TAG_ns_host_wwn:
  case ERF_META_TAG_ns_host_ib_gid:
  case ERF_META_TAG_ns_host_ib_lid:
  case ERF_META_TAG_ns_host_fc_id:
    tag_info->extra = erf_meta_tag_info_ex_new(wmem_epan_scope());

    hfri_tmp[0].p_id = &tag_info->hf_value;
    /* Set type, etc. from template based on address type */
    hfri_tmp[0].hfinfo = tag->hfinfo;
    hfri_tmp[0].hfinfo.name = "Address";
    hfri_tmp[0].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s.addr", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_len++;

    hfri_tmp[1].p_id = &tag_info->extra->hf_values[0];
    hfri_tmp[1].hfinfo.name = "Name";
    hfri_tmp[1].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s.name", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_tmp[1].hfinfo.type = FT_STRING;
    hfri_tmp[1].hfinfo.display = BASE_NONE;
    hfri_len++;
    break;

  /* Usual case: just use template */
  default:
    hfri_tmp[0].p_id = &tag_info->hf_value;
    hfri_tmp[0].hfinfo = tag->hfinfo;
    hfri_tmp[0].hfinfo.abbrev = wmem_strdup_printf(wmem_epan_scope(), "erf.meta.%s.%s", section->hfinfo.abbrev, tag->hfinfo.abbrev);
    hfri_len++;
    break;
  }

  /* Add hf_register_info, ett entries */
  wmem_array_append(hfri_table, hfri_tmp, hfri_len);
  ett_tmp = &tag_info->ett;
  wmem_array_append(ett_table, &ett_tmp, 1);

  return tag_info;
}

static void
init_meta_tags(void)
{
  unsigned int                  i, j    = 0;
  const erf_meta_hf_template_t *section = NULL;
  const erf_meta_hf_template_t *tag     = NULL;
  erf_meta_tag_info_t          *tag_info;
  value_string                  vs_tmp  = {0, NULL};

  erf_meta_index.tag_table      = wmem_map_new(wmem_epan_scope(), g_direct_hash, g_direct_equal);
  erf_meta_index.vs_list        = wmem_array_new(wmem_epan_scope(), sizeof(value_string));
  erf_meta_index.vs_abbrev_list = wmem_array_new(wmem_epan_scope(), sizeof(value_string));
  erf_meta_index.hfri           = wmem_array_new(wmem_epan_scope(), sizeof(hf_register_info));
  erf_meta_index.ett            = wmem_array_new(wmem_epan_scope(), sizeof(gint*));

  /* Generate tag fields */
  for (j = 0; j < array_length(erf_meta_tags); j++) {
    tag = &erf_meta_tags[j];

    /* Generate copy of the tag for each section */
    for (i = 0; i < array_length(erf_meta_sections); i++) {
      section = &erf_meta_sections[i];
      tag_info = init_tag_fields(erf_meta_index.hfri, erf_meta_index.ett, section, tag);
      /* Add to hash table */
      wmem_map_insert(erf_meta_index.tag_table, GUINT_TO_POINTER(ERF_TAG_INFO_KEY(tag_info)), tag_info);
    }

    /* Add value string entries */
    vs_tmp.value = tag->code;
    vs_tmp.strptr = tag->hfinfo.name;
    wmem_array_append_one(erf_meta_index.vs_list, vs_tmp);
    vs_tmp.value = tag->code;
    vs_tmp.strptr = tag->hfinfo.abbrev;
    wmem_array_append_one(erf_meta_index.vs_abbrev_list, vs_tmp);
  }

  /* Generate section fields (skipping section_none and parts of section_unknown) */
  for (i = 1; i < array_length(erf_meta_sections); i++) {
    section = &erf_meta_sections[i];
    tag_info = init_section_fields(erf_meta_index.hfri, erf_meta_index.ett, section);

    if (i != 1) { /* don't add value string for unknown section as it doesn't correspond to one section type code */
      /* Add to hash table */
      wmem_map_insert(erf_meta_index.tag_table, GUINT_TO_POINTER(ERF_TAG_INFO_KEY(tag_info)), tag_info);
      /* Add value string entries */
      vs_tmp.value = section->code;
      vs_tmp.strptr = section->hfinfo.name;
      wmem_array_append_one(erf_meta_index.vs_list, vs_tmp);
      vs_tmp.value = section->code;
      vs_tmp.strptr = section->hfinfo.abbrev;
      wmem_array_append_one(erf_meta_index.vs_abbrev_list, vs_tmp);
    } else {
      /* Store section_unknown separately to simplify logic later */
      erf_meta_index.unknown_section_info = tag_info;
    }
  }

  /* Terminate value string lists with {0, NULL} */
  vs_tmp.value = 0;
  vs_tmp.strptr = NULL;
  wmem_array_append_one(erf_meta_index.vs_list, vs_tmp);
  wmem_array_append_one(erf_meta_index.vs_abbrev_list, vs_tmp);
  /* TODO: try value_string_ext, requires sorting first */
}

static int
erf_source_append(guint64 host_id, guint8 source_id, guint32 num)
{
  erf_source_info_t *source_info;
  guint64            source_key = ERF_SOURCE_KEY(host_id, source_id);

  source_info = (erf_source_info_t*) wmem_map_lookup(erf_state.source_map, &source_key);

  if (!source_info) {
    guint64 *source_key_ptr = wmem_new(wmem_file_scope(), guint64);
    *source_key_ptr = source_key;

    source_info = (erf_source_info_t*) wmem_new(wmem_file_scope(), erf_source_info_t);
    source_info->meta_tree = wmem_tree_new(wmem_file_scope());
    source_info->meta_list = wmem_list_new(wmem_file_scope());

    wmem_map_insert(erf_state.source_map, source_key_ptr, source_info);
  }

  /* Add the frame to the list for that source */
  wmem_list_append(source_info->meta_list, GUINT_TO_POINTER(num));
  /*
   * XXX: This assumes we are inserting fd_num in order, which we are as we use
   * PINFO_FD_VISITED in caller.
   */
  wmem_tree_insert32(source_info->meta_tree, num, wmem_list_tail(source_info->meta_list));

  return 0;
}

static guint32
erf_source_find_closest(guint64 host_id, guint8 source_id, guint32 fnum, guint32 *fnum_next_ptr) {
  wmem_list_frame_t  *list_frame      = NULL;
  wmem_list_frame_t  *list_frame_prev = NULL;
  erf_source_info_t  *source_info     = NULL;
  guint64             source_key      = ERF_SOURCE_KEY(host_id, source_id);
  guint32             fnum_prev       = G_MAXUINT32;
  guint32             fnum_next       = G_MAXUINT32;

  source_info = (erf_source_info_t*) wmem_map_lookup(erf_state.source_map, &source_key);

  if (source_info) {
    list_frame = (wmem_list_frame_t*) wmem_tree_lookup32_le(source_info->meta_tree, fnum);

    if (list_frame) {
      fnum_prev = GPOINTER_TO_UINT(wmem_list_frame_data(list_frame));
      /* If looking at a metadata record, get the real previous meta frame */
      if (fnum_prev == fnum) {
        list_frame_prev = wmem_list_frame_prev(list_frame);
        fnum_prev = list_frame_prev ? GPOINTER_TO_UINT(wmem_list_frame_data(list_frame_prev)) : G_MAXUINT32;
      }

      list_frame = wmem_list_frame_next(list_frame);
      fnum_next = list_frame ? GPOINTER_TO_UINT(wmem_list_frame_data(list_frame)) : G_MAXUINT32;
    } else {
      /*
       * XXX: Edge case: still need the first meta record to find the next one at the
       * beginning of the file.
       */
      list_frame = wmem_list_head(source_info->meta_list);
      fnum_next = list_frame ? GPOINTER_TO_UINT(wmem_list_frame_data(list_frame)) : G_MAXUINT32;
      fnum_prev = G_MAXUINT32;
    }
  }

  if (fnum_next_ptr)
    *fnum_next_ptr = fnum_next;

  return fnum_prev;
}

/* Copy of atm_guess_traffic_type from atm.c in /wiretap */
static void
erf_atm_guess_lane_type(tvbuff_t *tvb, int offset, guint len,
    struct atm_phdr *atm_info)
{
  if (len >= 2) {
    if (tvb_get_ntohs(tvb, offset) == 0xFF00) {
      /*
       * Looks like LE Control traffic.
       */
      atm_info->subtype = TRAF_ST_LANE_LE_CTRL;
    } else {
      /*
       * XXX - Ethernet, or Token Ring?
       * Assume Ethernet for now; if we see earlier
       * LANE traffic, we may be able to figure out
       * the traffic type from that, but there may
       * still be situations where the user has to
       * tell us.
       */
      atm_info->subtype = TRAF_ST_LANE_802_3;
    }
  }
}

static void
erf_atm_guess_traffic_type(tvbuff_t *tvb, int offset, guint len,
    struct atm_phdr *atm_info)
{
  /*
   * Start out assuming nothing other than that it's AAL5.
   */
  atm_info->aal     = AAL_5;
  atm_info->type    = TRAF_UNKNOWN;
  atm_info->subtype = TRAF_ST_UNKNOWN;

  if (atm_info->vpi == 0) {
    /*
     * Traffic on some PVCs with a VPI of 0 and certain
     * VCIs is of particular types.
     */
    switch (atm_info->vci) {

    case 5:
      /*
       * Signalling AAL.
       */
      atm_info->aal = AAL_SIGNALLING;
      return;

    case 16:
      /*
       * ILMI.
       */
      atm_info->type = TRAF_ILMI;
      return;
    }
  }

  /*
   * OK, we can't tell what it is based on the VPI/VCI; try
   * guessing based on the contents, if we have enough data
   * to guess.
   */

  if (len >= 3) {
    guint8 mtp3b;
    if (tvb_get_ntoh24(tvb, offset) == 0xAAAA03) {
      /*
       * Looks like a SNAP header; assume it's LLC
       * multiplexed RFC 1483 traffic.
       */
      atm_info->type = TRAF_LLCMX;
    } else if ((atm_info->aal5t_len &&
                atm_info->aal5t_len < 16) || len<16) {
      /*
       * As this cannot be a LANE Ethernet frame (less
       * than 2 bytes of LANE header + 14 bytes of
       * Ethernet header) we can try it as a SSCOP frame.
       */
      atm_info->aal = AAL_SIGNALLING;
    } else if (((mtp3b = tvb_get_guint8(tvb, offset)) == 0x83) || (mtp3b == 0x81)) {
      /*
       * MTP3b headers often encapsulate
       * a SCCP or MTN in the 3G network.
       * This should cause 0x83 or 0x81
       * in the first byte.
       */
      atm_info->aal = AAL_SIGNALLING;
    } else {
      /*
       * Assume it's LANE.
       */
      atm_info->type = TRAF_LANE;
      erf_atm_guess_lane_type(tvb, offset, len, atm_info);
    }
  } else {
    /*
     * Not only VCI 5 is used for signaling. It might be
     * one of these VCIs.
     */
    atm_info->aal = AAL_SIGNALLING;
  }
}

static void
dissect_classification_ex_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree, int idx)
{
  if (tree) {
    proto_item *flags_item;
    proto_tree *flags_tree;
    guint64     hdr   = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;
    guint32     value = ((guint32)(hdr >> 32)) & EHDR_CLASS_FLAGS_MASK;

    flags_item = proto_tree_add_uint(tree, hf_erf_ehdr_class_flags, tvb, 0, 0, value);
    flags_tree = proto_item_add_subtree(flags_item, ett_erf_flags);

    proto_tree_add_uint(flags_tree, hf_erf_ehdr_class_flags_sh,   tvb, 0, 0, value);
    proto_tree_add_uint(flags_tree, hf_erf_ehdr_class_flags_shm,  tvb, 0, 0, value);
    proto_tree_add_uint(flags_tree, hf_erf_ehdr_class_flags_res1, tvb, 0, 0, value);
    proto_tree_add_uint(flags_tree, hf_erf_ehdr_class_flags_user, tvb, 0, 0, value);
    proto_tree_add_uint(flags_tree, hf_erf_ehdr_class_flags_res2, tvb, 0, 0, value);
    proto_tree_add_uint(flags_tree, hf_erf_ehdr_class_flags_drop, tvb, 0, 0, value);
    proto_tree_add_uint(flags_tree, hf_erf_ehdr_class_flags_str,  tvb, 0, 0, value);

    proto_tree_add_uint(tree, hf_erf_ehdr_class_seqnum, tvb, 0, 0, (guint32)hdr);
  }
}

static void
dissect_intercept_ex_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree, int idx)
{
  if (tree) {
    guint64     hdr = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;

    proto_tree_add_uint(tree, hf_erf_ehdr_int_res1, tvb, 0, 0, (guint8)((hdr >> 48) & 0xFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_int_id, tvb, 0, 0, (guint16)((hdr >> 32 ) & 0xFFFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_int_res2, tvb, 0, 0, (guint32)hdr);
  }
}

static void
dissect_raw_link_ex_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree, int idx)
{
  if (tree) {
    guint64     hdr = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;

    proto_tree_add_uint(tree, hf_erf_ehdr_raw_link_res ,    tvb, 0, 0, (guint32)((hdr >> 32) & 0xFFFFFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_raw_link_seqnum , tvb, 0, 0, (guint32)((hdr >> 16) & 0xffff));
    proto_tree_add_uint(tree, hf_erf_ehdr_raw_link_rate,    tvb, 0, 0, (guint32)((hdr >> 8) & 0x00ff));
    proto_tree_add_uint(tree, hf_erf_ehdr_raw_link_type,    tvb, 0, 0, (guint32)(hdr & 0x00ff));
  }
}

static void
dissect_bfs_ex_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree, int idx)
{
  if (tree) {
    guint64     hdr = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;

    proto_tree_add_uint(tree, hf_erf_ehdr_bfs_hash, tvb, 0, 0, (guint32)((hdr >> 48) & 0xFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_bfs_color, tvb, 0, 0, (guint32)((hdr >> 32) & 0xFFFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_bfs_raw_hash, tvb, 0, 0, (guint32)(hdr & 0xFFFFFFFF));
  }
}

static int
channelised_fill_sdh_g707_format(sdh_g707_format_t* in_fmt, guint16 bit_flds, guint8 vc_size, guint8 rate)
{
  int i = 0; /* i = 3 --> ITU-T letter #D - index of AUG-16
              * i = 2 --> ITU-T letter #C - index of AUG-4,
              * i = 1 --> ITU-T letter #B - index of AUG-1
              * i = 0 --> ITU-T letter #A - index of AU3*/

  if ( (0 == vc_size) || (vc_size > DECHAN_MAX_VC_SIZE) || (rate > DECHAN_MAX_LINE_RATE) )
  {
    /* unknown / unused / invalid container size or invalid line rate */
    in_fmt->m_vc_size = 0;
    in_fmt->m_sdh_line_rate = 0;
    memset(&(in_fmt->m_vc_index_array[0]), 0x00, DECHAN_MAX_AUG_INDEX);
    return -1;
  }

  in_fmt->m_vc_size = vc_size;
  in_fmt->m_sdh_line_rate = rate;
  memset(&(in_fmt->m_vc_index_array[0]), 0xff, DECHAN_MAX_AUG_INDEX);

  /* for STM64 traffic,from #D and so on .. */
    for (i = (rate - 2); i >= 0; i--)
  {
    guint8 aug_n_index = 0;

    /*if AUG-n is bigger than vc-size*/
    if ( i >= (vc_size - 1))
    {
      /* check the value in bit flds */
      aug_n_index = ((bit_flds >> (2 *i))& 0x3) +1;
    }
    else
    {
      aug_n_index = 0;
    }
    in_fmt->m_vc_index_array[i] = aug_n_index;
  }
  return 0;
}

static void
channelised_fill_vc_id_string(wmem_strbuf_t* out_string, sdh_g707_format_t* in_fmt)
{
  int      i;
  gboolean is_printed  = FALSE;

  static const char* g_vc_size_strings[] = {
    "unknown",  /*0x0*/
    "VC3",      /*0x1*/
    "VC4",      /*0x2*/
    "VC4-4c",   /*0x3*/
    "VC4-16c",  /*0x4*/
    "VC4-64c",  /*0x5*/};

  wmem_strbuf_truncate(out_string, 0);

  if ( (in_fmt->m_vc_size > DECHAN_MAX_VC_SIZE) || (in_fmt->m_sdh_line_rate > DECHAN_MAX_LINE_RATE) )
  {
    wmem_strbuf_append_printf(out_string, "Malformed");
    return;
  }

  wmem_strbuf_append_printf(out_string, "%s(",
                            (in_fmt->m_vc_size < array_length(g_vc_size_strings)) ?
                            g_vc_size_strings[in_fmt->m_vc_size] : g_vc_size_strings[0] );

  if (in_fmt->m_sdh_line_rate <= 0 )
  {
    /* line rate is not given */
    for (i = (DECHAN_MAX_AUG_INDEX -1); i >= 0; i--)
    {
      if ((in_fmt->m_vc_index_array[i] > 0) || (is_printed) )
      {
        wmem_strbuf_append_printf(out_string, "%s%d",
                                  ((is_printed)?", ":""),
                                  in_fmt->m_vc_index_array[i]);
        is_printed = TRUE;
      }
    }

  }
  else
  {
    for (i = in_fmt->m_sdh_line_rate - 2; i >= 0; i--)
    {
      wmem_strbuf_append_printf(out_string, "%s%d",
                                ((is_printed)?", ":""),
                                in_fmt->m_vc_index_array[i]);
      is_printed = TRUE;
    }
  }
  if ( ! is_printed )
  {
    /* Not printed . possibly it's a ocXc packet with (0,0,0...) */
    for ( i =0; i < in_fmt->m_vc_size - 2; i++)
    {
      wmem_strbuf_append_printf(out_string, "%s0",
                                ((is_printed)?", ":""));
      is_printed = TRUE;
    }
  }
  wmem_strbuf_append_c(out_string, ')');
  return;
}

static void
dissect_channelised_ex_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree, int idx)
{
  guint64            hdr              = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;
  guint8             vc_id            = (guint8)((hdr >> 24) & 0xFF);
  guint8             vc_size          = (guint8)((hdr >> 16) & 0xFF);
  guint8             line_rate        = (guint8)((hdr >> 8) & 0xFF);
  sdh_g707_format_t  g707_format;
  wmem_strbuf_t     *vc_id_string = wmem_strbuf_new_label(wmem_packet_scope());

  channelised_fill_sdh_g707_format(&g707_format, vc_id, vc_size, line_rate);
  channelised_fill_vc_id_string(vc_id_string, &g707_format);

  if (tree) {
    proto_tree_add_boolean(tree, hf_erf_ehdr_chan_morebits, tvb, 0, 0, (guint8)((hdr >> 63) & 0x1));
    proto_tree_add_boolean(tree, hf_erf_ehdr_chan_morefrag, tvb, 0, 0, (guint8)((hdr >> 55) & 0x1));
    proto_tree_add_uint(tree, hf_erf_ehdr_chan_seqnum, tvb, 0, 0, (guint16)((hdr >> 40) & 0x7FFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_chan_res, tvb, 0, 0, (guint8)((hdr >> 32) & 0xFF));
    proto_tree_add_uint_format_value(tree, hf_erf_ehdr_chan_virt_container_id, tvb, 0, 0, vc_id,
                                     "0x%.2x (g.707: %s)", vc_id, wmem_strbuf_get_str(vc_id_string));
    proto_tree_add_uint(tree, hf_erf_ehdr_chan_assoc_virt_container_size, tvb, 0, 0, vc_size);
    proto_tree_add_uint(tree, hf_erf_ehdr_chan_rate, tvb, 0, 0, line_rate);
    proto_tree_add_uint(tree, hf_erf_ehdr_chan_type, tvb, 0, 0, (guint8)((hdr >> 0) & 0xFF));
  }
}

static void
dissect_signature_ex_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, int idx)
{
  if(tree) {
    guint64     hdr = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;

    proto_tree_add_uint(tree, hf_erf_ehdr_signature_payload_hash, tvb, 0, 0, (guint32)((hdr >> 32) & 0xFFFFFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_signature_color,        tvb, 0, 0, (guint8)((hdr >> 24) & 0xFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_signature_flow_hash,    tvb, 0, 0, (guint32)(hdr & 0xFFFFFF));
  }
}

static void
dissect_host_id_ex_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, int idx)
{
  if(tree) {
    guint64     hdr = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;

    proto_tree_add_uint(tree, hf_erf_ehdr_host_id_sourceid, tvb, 0, 0, (guint8)((hdr >> 48) & 0xFF));
    proto_tree_add_uint64(tree, hf_erf_ehdr_host_id_hostid, tvb, 0, 0, (hdr & ERF_EHDR_HOST_ID_MASK));
  }
}

static void
dissect_flow_id_ex_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, int idx)
{
  if(tree) {
    guint64     hdr = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;

    proto_tree_add_uint(tree, hf_erf_ehdr_flow_id_source_id,  tvb, 0, 0, (guint8)((hdr >> 48) & 0xFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_flow_id_hash_type,  tvb, 0, 0, (guint8)((hdr >> 40) & 0xFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_flow_id_stack_type, tvb, 0, 0, (guint8)((hdr >> 32) & 0xFF));
    proto_tree_add_uint(tree, hf_erf_ehdr_flow_id_flow_hash,  tvb, 0, 0, (guint32)(hdr & 0xFFFFFFFF));
  }
}

static guint64
find_host_id(packet_info *pinfo) {
  guint64 *hdr = NULL;

  hdr = erf_get_ehdr(pinfo, ERF_EXT_HDR_TYPE_HOST_ID, NULL);

  return hdr ? (*hdr & ERF_EHDR_HOST_ID_MASK) : 0;
}

static void
dissect_host_id_source_id(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint64 host_id, guint8 source_id)
{
  if (tree) {
    proto_tree *hostid_tree;
    proto_item *pi           = NULL;
    guint32     fnum_current = G_MAXUINT32;
    guint32     fnum         = G_MAXUINT32;
    guint32     fnum_next    = G_MAXUINT32;

    fnum = erf_source_find_closest(host_id, source_id, pinfo->num, &fnum_next);

    if (fnum != G_MAXUINT32) {
      fnum_current = fnum;
    } else {
      /* XXX: Possibly undesireable side effect: first metadata record links to next */
      fnum_current = fnum_next;
    }

    if (fnum_current != G_MAXUINT32) {
      pi = proto_tree_add_uint_format(tree, hf_erf_source_current, tvb, 0, 0, fnum_current,
          "Host ID: 0x%012" G_GINT64_MODIFIER "x, Source ID: %u", host_id, source_id&0xFF);
      hostid_tree = proto_item_add_subtree(pi, ett_erf_source);
    } else {
      /* If we have no frame number to link against, just add a static subtree */
      hostid_tree = proto_tree_add_subtree_format(tree, tvb, 0, 0, ett_erf_source, &pi,
          "Host ID: 0x%012" G_GINT64_MODIFIER "x, Source ID: %u", host_id, source_id&0xFF);
    }
    PROTO_ITEM_SET_GENERATED(pi);

    pi = proto_tree_add_uint64(hostid_tree, hf_erf_hostid, tvb, 0, 0, host_id);
    PROTO_ITEM_SET_GENERATED(pi);
    pi = proto_tree_add_uint(hostid_tree, hf_erf_sourceid, tvb, 0, 0, source_id);
    PROTO_ITEM_SET_GENERATED(pi);

    if (fnum_next != G_MAXUINT32) {
      pi = proto_tree_add_uint(hostid_tree, hf_erf_source_next, tvb, 0, 0, fnum_next);
      PROTO_ITEM_SET_GENERATED(pi);
    }
    if (fnum != G_MAXUINT32) {
      pi = proto_tree_add_uint(hostid_tree, hf_erf_source_prev, tvb, 0, 0, fnum);
      PROTO_ITEM_SET_GENERATED(pi);
    }
  }
}

static void
dissect_unknown_ex_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree, int idx)
{
  if (tree) {
    guint64     hdr = pinfo->pseudo_header->erf.ehdr_list[idx].ehdr;

    proto_tree_add_uint64(tree, hf_erf_ehdr_unk, tvb, 0, 0, hdr);
  }
}

static void
dissect_mc_hdlc_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item *mc_hdlc_item;
    proto_tree *mc_hdlc_tree;
    guint32     mc_hdlc;
    proto_item *pi;

    /* Multi Channel HDLC Header */
    mc_hdlc_item = proto_tree_add_uint(tree, hf_erf_mc_hdlc, tvb, 0, 0, pinfo->pseudo_header->erf.subhdr.mc_hdr);
    mc_hdlc_tree = proto_item_add_subtree(mc_hdlc_item, ett_erf_mc_hdlc);
    mc_hdlc = pinfo->pseudo_header->erf.subhdr.mc_hdr;

    proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_cn, tvb, 0, 0,  mc_hdlc);
    proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_res1, tvb, 0, 0,  mc_hdlc);
    proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_res2, tvb, 0, 0,  mc_hdlc);
    pi=proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_fcse, tvb, 0, 0,  mc_hdlc);
    if (mc_hdlc & MC_HDLC_FCSE_MASK)
      expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF MC FCS Error");

    pi=proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_sre,  tvb, 0, 0,  mc_hdlc);
    if (mc_hdlc & MC_HDLC_SRE_MASK)
      expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF MC Short Record Error, <5 bytes");

    pi=proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_lre,  tvb, 0, 0,  mc_hdlc);
    if (mc_hdlc & MC_HDLC_LRE_MASK)
      expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF MC Long Record Error, >2047 bytes");

    pi=proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_afe,  tvb, 0, 0,  mc_hdlc);
    if (mc_hdlc & MC_HDLC_AFE_MASK)
      expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF MC Aborted Frame Error");

    pi=proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_oe,   tvb, 0, 0,  mc_hdlc);
    if (mc_hdlc & MC_HDLC_OE_MASK)
      expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF MC Octet Error, the closing flag was not octet aligned after bit unstuffing");

    pi=proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_lbe,  tvb, 0, 0,  mc_hdlc);
    if (mc_hdlc & MC_HDLC_LBE_MASK)
      expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF MC Lost Byte Error");

    proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_first, tvb, 0, 0,  mc_hdlc);
    proto_tree_add_uint(mc_hdlc_tree, hf_erf_mc_hdlc_res3,  tvb, 0, 0,  mc_hdlc);
  }
}

static void
dissect_mc_raw_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item *mc_raw_item;
    proto_tree *mc_raw_tree;
    guint32     mc_raw;

    /* Multi Channel RAW Header */
    mc_raw_item = proto_tree_add_uint(tree, hf_erf_mc_raw, tvb, 0, 0, pinfo->pseudo_header->erf.subhdr.mc_hdr);
    mc_raw_tree = proto_item_add_subtree(mc_raw_item, ett_erf_mc_raw);
    mc_raw = pinfo->pseudo_header->erf.subhdr.mc_hdr;

    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_int,   tvb, 0, 0, mc_raw);
    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_res1,  tvb, 0, 0, mc_raw);
    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_sre,   tvb, 0, 0, mc_raw);
    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_lre,   tvb, 0, 0, mc_raw);
    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_res2,  tvb, 0, 0, mc_raw);
    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_lbe,   tvb, 0, 0, mc_raw);
    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_first, tvb, 0, 0, mc_raw);
    proto_tree_add_uint(mc_raw_tree, hf_erf_mc_raw_res3,  tvb, 0, 0, mc_raw);
  }
}

static void
dissect_mc_atm_header(tvbuff_t *tvb,  packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item *mc_atm_item;
    proto_tree *mc_atm_tree;
    guint32     mc_atm;

    /*"Multi Channel ATM Header"*/
    mc_atm_item = proto_tree_add_uint(tree, hf_erf_mc_atm, tvb, 0, 0, pinfo->pseudo_header->erf.subhdr.mc_hdr);
    mc_atm_tree = proto_item_add_subtree(mc_atm_item, ett_erf_mc_atm);
    mc_atm = pinfo->pseudo_header->erf.subhdr.mc_hdr;

    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_cn,      tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_res1,    tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_mul,     tvb, 0, 0, mc_atm);

    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_port,    tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_res2,    tvb, 0, 0, mc_atm);

    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_lbe,     tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_hec,     tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_crc10,   tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_oamcell, tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_first,   tvb, 0, 0, mc_atm);
    proto_tree_add_uint(mc_atm_tree, hf_erf_mc_atm_res3,    tvb, 0, 0, mc_atm);
  }
}

static void
dissect_mc_rawlink_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item *mc_rawl_item;
    proto_tree *mc_rawl_tree;
    guint32     mc_rawl;

    /* Multi Channel RAW Link Header */
    mc_rawl_item = proto_tree_add_uint(tree, hf_erf_mc_rawl, tvb, 0, 0, pinfo->pseudo_header->erf.subhdr.mc_hdr);
    mc_rawl_tree = proto_item_add_subtree(mc_rawl_item, ett_erf_mc_rawlink);
    mc_rawl = pinfo->pseudo_header->erf.subhdr.mc_hdr;

    proto_tree_add_uint(mc_rawl_tree, hf_erf_mc_rawl_cn,    tvb, 0, 0, mc_rawl);
    proto_tree_add_uint(mc_rawl_tree, hf_erf_mc_rawl_res1,  tvb, 0, 0, mc_rawl);
    proto_tree_add_uint(mc_rawl_tree, hf_erf_mc_rawl_lbe,   tvb, 0, 0, mc_rawl);
    proto_tree_add_uint(mc_rawl_tree, hf_erf_mc_rawl_first, tvb, 0, 0, mc_rawl);
    proto_tree_add_uint(mc_rawl_tree, hf_erf_mc_rawl_res2,  tvb, 0, 0, mc_rawl);
  }
}

static void
dissect_mc_aal5_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item *mc_aal5_item;
    proto_tree *mc_aal5_tree;
    guint32     mc_aal5;

    /* Multi Channel AAL5 Header */
    mc_aal5_item = proto_tree_add_uint(tree, hf_erf_mc_aal5, tvb, 0, 0, pinfo->pseudo_header->erf.subhdr.mc_hdr);
    mc_aal5_tree = proto_item_add_subtree(mc_aal5_item, ett_erf_mc_aal5);
    mc_aal5 = pinfo->pseudo_header->erf.subhdr.mc_hdr;

    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_cn,    tvb, 0, 0, mc_aal5);
    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_res1,  tvb, 0, 0, mc_aal5);

    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_port,  tvb, 0, 0, mc_aal5);
    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_crcck, tvb, 0, 0, mc_aal5);
    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_crce,  tvb, 0, 0, mc_aal5);
    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_lenck, tvb, 0, 0, mc_aal5);
    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_lene,  tvb, 0, 0, mc_aal5);

    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_res2,  tvb, 0, 0, mc_aal5);
    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_first, tvb, 0, 0, mc_aal5);
    proto_tree_add_uint(mc_aal5_tree, hf_erf_mc_aal5_res3,  tvb, 0, 0, mc_aal5);
  }
}

static void
dissect_mc_aal2_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item *mc_aal2_item;
    proto_tree *mc_aal2_tree;
    guint32     mc_aal2;

    /* Multi Channel AAL2 Header */
    mc_aal2_item = proto_tree_add_uint(tree, hf_erf_mc_aal2, tvb, 0, 0, pinfo->pseudo_header->erf.subhdr.mc_hdr);
    mc_aal2_tree = proto_item_add_subtree(mc_aal2_item, ett_erf_mc_aal2);
    mc_aal2 = pinfo->pseudo_header->erf.subhdr.mc_hdr;

    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_cn,    tvb, 0, 0, mc_aal2);
    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_res1,  tvb, 0, 0, mc_aal2);
    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_res2,  tvb, 0, 0, mc_aal2);

    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_port,  tvb, 0, 0, mc_aal2);
    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_res3,  tvb, 0, 0, mc_aal2);
    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_first, tvb, 0, 0, mc_aal2);
    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_maale, tvb, 0, 0, mc_aal2);
    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_lene,  tvb, 0, 0, mc_aal2);

    proto_tree_add_uint(mc_aal2_tree, hf_erf_mc_aal2_cid,   tvb, 0, 0, mc_aal2);
  }
}

static void
dissect_aal2_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item *aal2_item;
    proto_tree *aal2_tree;
    guint32     aal2;

    /* AAL2 Header */
    aal2_item = proto_tree_add_uint(tree, hf_erf_aal2, tvb, 0, 0, pinfo->pseudo_header->erf.subhdr.mc_hdr);
    aal2_tree = proto_item_add_subtree(aal2_item, ett_erf_aal2);
    aal2 = pinfo->pseudo_header->erf.subhdr.aal2_hdr;

    proto_tree_add_uint(aal2_tree, hf_erf_aal2_cid,    tvb, 0, 0, aal2);

    proto_tree_add_uint(aal2_tree, hf_erf_aal2_maale,  tvb, 0, 0, aal2);

    proto_tree_add_uint(aal2_tree, hf_erf_aal2_maalei, tvb, 0, 0, aal2);
    proto_tree_add_uint(aal2_tree, hf_erf_aal2_first,  tvb, 0, 0, aal2);
    proto_tree_add_uint(aal2_tree, hf_erf_aal2_res1,   tvb, 0, 0, aal2);
  }
}

static void
dissect_eth_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  if (tree) {
    proto_item          *eth_item;
    proto_tree          *eth_tree;
    guint8               eth_offset, eth_pad;

    eth_item = proto_tree_add_item(tree, hf_erf_eth, tvb, 0, 0, ENC_NA);

    eth_tree = proto_item_add_subtree(eth_item, ett_erf_eth);
    eth_offset = pinfo->pseudo_header->erf.subhdr.eth_hdr.offset;
    eth_pad = pinfo->pseudo_header->erf.subhdr.eth_hdr.pad;

    proto_tree_add_uint(eth_tree, hf_erf_eth_off, tvb, 0, 0, eth_offset);
    proto_tree_add_uint(eth_tree, hf_erf_eth_pad, tvb, 0, 0, eth_pad);
  }
}

static void
dissect_erf_pseudo_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  proto_item *pi;
  proto_item *flags_item, *rectype_item;
  proto_tree *flags_tree, *rectype_tree;

  proto_tree_add_uint64(tree, hf_erf_ts, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.ts);

  rectype_item = proto_tree_add_uint_format_value(tree, hf_erf_rectype, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.type,
                                                  "0x%02x (Type %d: %s)",
                                                  pinfo->pseudo_header->erf.phdr.type,
                                                  pinfo->pseudo_header->erf.phdr.type & ERF_HDR_TYPE_MASK,
                                                  val_to_str_const(
                                                    pinfo->pseudo_header->erf.phdr.type & ERF_HDR_TYPE_MASK,
                                                    erf_type_vals,
                                                    "Unknown Type"));

  rectype_tree = proto_item_add_subtree(rectype_item, ett_erf_rectype);
  proto_tree_add_uint(rectype_tree, hf_erf_type, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.type);
  proto_tree_add_uint(rectype_tree, hf_erf_ehdr, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.type);

  flags_item=proto_tree_add_uint(tree, hf_erf_flags, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.flags);
  flags_tree = proto_item_add_subtree(flags_item, ett_erf_flags);

  proto_tree_add_uint(flags_tree, hf_erf_flags_cap, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.flags);
  proto_item_append_text(flags_item, " (Capture Interface: %d", pinfo->pseudo_header->erf.phdr.flags & ERF_HDR_CAP_MASK);

  proto_tree_add_uint(flags_tree, hf_erf_flags_vlen, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.flags);
  pi=proto_tree_add_uint(flags_tree, hf_erf_flags_trunc, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.flags);
  if (pinfo->pseudo_header->erf.phdr.flags & ERF_HDR_TRUNC_MASK) {
    proto_item_append_text(flags_item, "; ERF Truncation Error");
    expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF Truncation Error");
  }

  pi=proto_tree_add_uint(flags_tree, hf_erf_flags_rxe, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.flags);
  if (pinfo->pseudo_header->erf.phdr.flags & ERF_HDR_RXE_MASK) {
    proto_item_append_text(flags_item, "; ERF Rx Error");
    expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF Rx Error");
  }

  pi=proto_tree_add_uint(flags_tree, hf_erf_flags_dse, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.flags);
  if (pinfo->pseudo_header->erf.phdr.flags & ERF_HDR_DSE_MASK) {
    proto_item_append_text(flags_item, "; ERF DS Error");
    expert_add_info_format(pinfo, pi, &ei_erf_checksum_error, "ERF DS Error");
  }
  proto_item_append_text(flags_item, ")");

  proto_tree_add_uint(flags_tree, hf_erf_flags_res, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.flags);

  proto_tree_add_uint(tree, hf_erf_rlen, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.rlen);
  pi=proto_tree_add_uint(tree, hf_erf_lctr, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.lctr);
  if (pinfo->pseudo_header->erf.phdr.lctr > 0)
    expert_add_info(pinfo, pi, &ei_erf_packet_loss);

  proto_tree_add_uint(tree, hf_erf_wlen, tvb, 0, 0, pinfo->pseudo_header->erf.phdr.wlen);
}

static void
dissect_erf_pseudo_extension_header(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  proto_item *pi;
  proto_item *ehdr_tree;
  guint64     hdr;
  guint8      type;
  guint8      has_more = pinfo->pseudo_header->erf.phdr.type & 0x80;
  int         i        = 0;
  int         max      = sizeof(pinfo->pseudo_header->erf.ehdr_list)/sizeof(struct erf_ehdr);

  guint64     host_id        = 0;
  guint8      source_id      = 0;
  guint64     host_id_last   = 0;
  guint8      source_id_last = 0;

  /*
   * Get the first Host ID of the record (which may not be the first extension
   * header).
   */
  host_id = find_host_id(pinfo);
  if (host_id == 0) {
    /*
     * XXX: We are relying here on the Wireshark doing a second parse any
     * time it does anything with tree items (including filtering) to associate
     * the records before the first ERF_TYPE_META record. This does not work
     * with TShark in one-pass mode, in which case the first few records get
     * Host ID 0 (unset).
     */
    host_id = erf_state.implicit_host_id;
  }

  while(has_more && (i < max)) {
    hdr = pinfo->pseudo_header->erf.ehdr_list[i].ehdr;
    type = (guint8) (hdr >> 56);

    pi = proto_tree_add_uint(tree, hf_erf_ehdr_t, tvb, 0, 0, (type & 0x7f));
    ehdr_tree = proto_item_add_subtree(pi, ett_erf_pseudo_hdr);

    switch (type & 0x7f) {
    case ERF_EXT_HDR_TYPE_CLASSIFICATION:
      dissect_classification_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    case ERF_EXT_HDR_TYPE_INTERCEPTID:
      dissect_intercept_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    case ERF_EXT_HDR_TYPE_RAW_LINK:
      dissect_raw_link_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    case ERF_EXT_HDR_TYPE_BFS:
      dissect_bfs_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    case ERF_EXT_HDR_TYPE_CHANNELISED:
      dissect_channelised_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    case ERF_EXT_HDR_TYPE_SIGNATURE:
      dissect_signature_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    case ERF_EXT_HDR_TYPE_FLOW_ID:
      source_id = (guint8)((hdr >> 48) & 0xFF);
      dissect_flow_id_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    case ERF_EXT_HDR_TYPE_HOST_ID:
      host_id = hdr & ERF_EHDR_HOST_ID_MASK;
      source_id = (guint8)((hdr >> 48) & 0xFF);
      dissect_host_id_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    default:
      dissect_unknown_ex_header(tvb, pinfo, ehdr_tree, i);
      break;
    }

    /* Track and dissect combined Host ID and Source ID(s) */
    if (source_id != source_id_last || host_id != host_id_last) {
      /*
       * TODO: Do we also want to track Host ID 0 Source ID 0 records? These
       * are technically unassociated.
       */
      if (!PINFO_FD_VISITED(pinfo)) {
        if ((pinfo->pseudo_header->erf.phdr.type & 0x7f) == ERF_TYPE_META) {
          /* Update the implicit Host ID when ERF_TYPE_META */
          /* XXX: We currently assume there is only one in the whole file */
          if (erf_state.implicit_host_id == 0 && source_id > 0) {
            erf_state.implicit_host_id = host_id;
          }

          /* Add to the sequence of ERF_TYPE_META records */
          erf_source_append(host_id, source_id, pinfo->num);
        }
      }

      dissect_host_id_source_id(tvb, pinfo, tree, host_id, source_id);
    }

    host_id_last = host_id;
    source_id_last = source_id;

    has_more = type & 0x80;
    i += 1;
  }
  if (has_more) {
    proto_tree_add_expert(tree, pinfo, &ei_erf_extension_headers_not_shown, tvb, 0, 0);
  }

}

guint64* erf_get_ehdr(packet_info *pinfo, guint8 hdrtype, gint* afterindex) {
  guint8      type;
  guint8      has_more;
  int         max;
  int         i        = afterindex ? *afterindex + 1 : 0; /*allow specifying instance to start after for use in loop*/

  if (!pinfo) /*XXX: how to determine if erf pseudo_header is valid?*/
      return NULL;

  has_more = pinfo->pseudo_header->erf.phdr.type & 0x80;
  max      = sizeof(pinfo->pseudo_header->erf.ehdr_list)/sizeof(struct erf_ehdr);


  while(has_more && (i < max)) {
    type = (guint8) (pinfo->pseudo_header->erf.ehdr_list[i].ehdr >> 56);

    if ((type & 0x7f) == (hdrtype & 0x7f)) {
         if (afterindex)
             *afterindex = i;
         return &pinfo->pseudo_header->erf.ehdr_list[i].ehdr;
    }

    has_more = type & 0x80;
    i += 1;
  }

  return NULL;
}

static void
check_section_length(packet_info *pinfo, proto_item *sectionlen_pi, int offset, int sectionoffset, int sectionlen) {
  if (sectionlen_pi) {
    if (offset - sectionoffset == sectionlen) {
      proto_item_append_text(sectionlen_pi, " [correct]");
    } else if (sectionlen != 0) {
      proto_item_append_text(sectionlen_pi, " [incorrect, should be %u]", offset - sectionoffset);
      expert_add_info(pinfo, sectionlen_pi, &ei_erf_meta_section_len_error);
    }
  }
}

static void
dissect_meta_record_tags(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree) {
  proto_item *pi            = NULL;
  proto_item *tag_pi        = NULL;
  proto_item *tag_tree;
  proto_item *section_pi    = NULL;
  proto_item *section_tree  = tree;
  proto_item *sectionlen_pi = NULL;

  guint16                sectiontype  = ERF_META_SECTION_NONE;
  guint16                tagtype      = 0;
  guint16                taglength    = 0;
  const gchar           *tagvalstring = NULL;
  erf_meta_tag_info_t   *tag_info;

  /* Used for search entry and unknown tags */
  erf_meta_hf_template_t tag_template_unknown = { 0, { "Unknown", "unknown",
    FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } };
  erf_meta_tag_info_t    tag_info_local       = { 0, 0, &tag_template_unknown,
    ett_erf_meta_tag, hf_erf_meta_tag_unknown, NULL };

  int     offset        = 0;
  int     sectionoffset = 0;
  guint16 sectionid     = 0;
  guint16 sectionlen    = 0;

  /* Set column heading title*/
  col_set_str(pinfo->cinfo, COL_INFO, "MetaERF Record");

  /* Go through the sectionss and their tags */
  while (tvb_captured_length_remaining(tvb, offset) > 4) {
    tagtype = tvb_get_ntohs(tvb, offset);
    taglength = tvb_get_ntohs(tvb, offset + 2);
    tag_tree = NULL;

    if (ERF_META_IS_SECTION(tagtype))
      sectiontype = tagtype;

    /* Look up per-section tag hf */
    tag_info_local.code = tagtype;
    tag_info_local.section = sectiontype;
    tag_info = (erf_meta_tag_info_t*) wmem_map_lookup(erf_meta_index.tag_table, GUINT_TO_POINTER(ERF_TAG_INFO_KEY(&tag_info_local)));

    /* Fall back to unknown tag */
    if (tag_info == NULL)
      tag_info = &tag_info_local;

    /* Dissect value, length and type */
    if (ERF_META_IS_SECTION(tagtype)) { /* Section header tag */
      if (section_pi) {
        /* Update section item length of last section */
        proto_item_set_len(section_pi, offset - sectionoffset);
        if (sectionlen_pi) {
          check_section_length(pinfo, sectionlen_pi, offset, sectionoffset, sectionlen);
        }
      }

      sectionoffset = offset;
      if (tag_info->tag_template == &tag_template_unknown) {
        /* Unknown section */
        sectiontype = ERF_META_SECTION_UNKNOWN;
        tag_info = erf_meta_index.unknown_section_info;
      }
      DISSECTOR_ASSERT(tag_info->extra);

      tagvalstring = val_to_str(tagtype, VALS(wmem_array_get_raw(erf_meta_index.vs_list)), "Unknown Section (0x%x)");
      section_tree = proto_tree_add_subtree_format(tree, tvb, offset, 0, tag_info->extra->ett_value, &section_pi, "MetaERF %s", tagvalstring);
      tag_tree = proto_tree_add_subtree_format(section_tree, tvb, offset, taglength + 4, tag_info->ett, &tag_pi, "%s Header", tagvalstring);

      if (taglength > 0) {
        sectionid = tvb_get_ntohs(tvb, offset + 4);
        sectionlen = tvb_get_ntohs(tvb, offset + 6);

        /* Add section_id */
        proto_tree_add_uint(tag_tree, tag_info->hf_value, tvb, offset + 4, 2, sectionid);
        if (sectionid != 0)
          proto_item_append_text(section_pi, " %u", sectionid);

        /* Add section_len */
        sectionlen_pi = proto_tree_add_uint(tag_tree, tag_info->extra->hf_values[0], tvb, offset + 6, 2, sectionlen);

        /* Reserved extra section header information */
        if (taglength > 4) {
          proto_tree_add_item(tag_tree, tag_info->extra->hf_values[1], tvb, offset + 8, taglength - 4, ENC_NA);
        }
      }
    } else { /* Not section header tag */
      enum ftenum tag_ft;
      char        pi_label[ITEM_LABEL_LENGTH+1];
      gboolean    dissected = TRUE;
      guint32     value32;
      guint64     value64;
      gchar      *tmp = NULL;

      tag_ft = tag_info->tag_template->hfinfo.type;
      pi_label[0] = '\0';

      /* Group tags before first section header into a fake section */
      if (offset == 0) {
        section_tree = proto_tree_add_subtree(tree, tvb, offset, 0, ett_erf_meta, &section_pi, "MetaERF No Section");
      }

      /* Handle special cases */
      /* TODO: might want to do this dynamically via tag_info callback */
      switch (tagtype) {
      /* TODO: use get_tcp_port in epan/addr_resolv.h etc */
      case ERF_META_TAG_if_speed:
      case ERF_META_TAG_if_tx_speed:
        value64 = tvb_get_ntoh64(tvb, offset + 4);
        tmp = format_size((gint64) value64, (format_size_flags_e)(format_size_unit_bits_s|format_size_prefix_si));
        tag_pi = proto_tree_add_uint64_format_value(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, value64, "%s (%" G_GINT64_MODIFIER "u bps)", tmp, value64);
        g_free(tmp);
        break;

      case ERF_META_TAG_if_rx_power:
      case ERF_META_TAG_if_tx_power:
        value32 = tvb_get_ntohl(tvb, offset + 4);
        tag_pi = proto_tree_add_int_format_value(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, (gint32) value32, "%.2fdBm", (float)((gint32) value32)/100.0);
        break;

      case ERF_META_TAG_loc_lat:
      case ERF_META_TAG_loc_long:
        value32 = tvb_get_ntohl(tvb, offset + 4);
        tag_pi = proto_tree_add_int_format_value(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, (gint32) value32, "%.2f", (double)((gint32) value32)*1000000.0);
        break;

      case ERF_META_TAG_mask_cidr:
        value32 = tvb_get_ntohl(tvb, offset + 4);
        tag_pi = proto_tree_add_uint_format_value(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, value32, "/%u", value32);
        break;

      case ERF_META_TAG_mem:
        value64 = tvb_get_ntoh64(tvb, offset + 4);
        tmp = format_size((gint64) value64, (format_size_flags_e)(format_size_unit_bytes|format_size_prefix_iec));
        tag_pi = proto_tree_add_uint64_format_value(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, value64, "%s (%" G_GINT64_MODIFIER"u bytes)", tmp, value64);
        g_free(tmp);
        break;

      case ERF_META_TAG_parent_section:
        DISSECTOR_ASSERT(tag_info->extra);
        value32 = tvb_get_ntohs(tvb, offset + 4);
        /*
         * XXX: Formatting value manually because don't have erf_meta_vs_list
         * populated at registration time.
         */
        tag_tree = proto_tree_add_subtree_format(section_tree, tvb, offset + 4, taglength, tag_info->ett, &tag_pi, "%s: %s %u", tag_info->tag_template->hfinfo.name,
            val_to_str(value32, VALS(wmem_array_get_raw(erf_meta_index.vs_list)), "Unknown Section (%u)"), tvb_get_ntohs(tvb, offset + 4 + 2));

        proto_tree_add_uint_format_value(tag_tree, tag_info->hf_value, tvb, offset + 4, MIN(2, taglength), value32, "%s (%u)",
            val_to_str(value32, VALS(wmem_array_get_raw(erf_meta_index.vs_abbrev_list)), "Unknown"), value32);
        proto_tree_add_item(tag_tree, tag_info->extra->hf_values[0], tvb, offset + 6, MIN(2, taglength - 2), ENC_BIG_ENDIAN);
        break;

      case ERF_META_TAG_reset:
        tag_pi = proto_tree_add_item(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, ENC_NA);
        expert_add_info(pinfo, tag_pi, &ei_erf_meta_reset);
        break;

      case ERF_META_TAG_if_link_status:
        DISSECTOR_ASSERT(tag_info->extra);
        {
          const int *link_status_flags[] = {
            &tag_info->extra->hf_values[0],
            NULL
          };

          tag_pi = proto_tree_add_bitmask(section_tree, tvb, offset + 4, tag_info->hf_value, tag_info->ett, link_status_flags, ENC_BIG_ENDIAN);
          tag_tree = proto_item_get_subtree(tag_pi);
        }
        break;

      case ERF_META_TAG_tunneling_mode:
        DISSECTOR_ASSERT(tag_info->extra);
        {
          const int* tunneling_mode_flags[array_length(erf_tunneling_modes)+1];
          int i;

          /* XXX: This is allowed as the array itself is not constant (not const int* const) */
          for (i = 0; i < (int) array_length(erf_tunneling_modes); i++) {
            tunneling_mode_flags[i] = &tag_info->extra->hf_values[i];
          }
          tunneling_mode_flags[array_length(erf_tunneling_modes)] = NULL;

          tag_pi = proto_tree_add_bitmask(section_tree, tvb, offset + 4, tag_info->hf_value, tag_info->ett, tunneling_mode_flags, ENC_BIG_ENDIAN);
        }
        break;

      case ERF_META_TAG_ns_dns_ipv4:
      case ERF_META_TAG_ns_dns_ipv6:
      case ERF_META_TAG_ns_host_ipv4:
      case ERF_META_TAG_ns_host_ipv6:
      case ERF_META_TAG_ns_host_mac:
      case ERF_META_TAG_ns_host_eui:
      case ERF_META_TAG_ns_host_wwn:
      case ERF_META_TAG_ns_host_ib_gid:
      case ERF_META_TAG_ns_host_ib_lid:
      case ERF_META_TAG_ns_host_fc_id:
      {
        int addr_len = ftype_length(tag_ft);

        DISSECTOR_ASSERT(tag_info->extra);

        tag_tree = proto_tree_add_subtree(section_tree, tvb, offset + 4, taglength, tag_info->ett, &tag_pi, tag_info->tag_template->hfinfo.name);
        /* Address */
        pi = proto_tree_add_item(tag_tree, tag_info->hf_value, tvb, offset + 4, MIN(addr_len, taglength), IS_FT_INT(tag_ft) || IS_FT_UINT(tag_ft) ? ENC_BIG_ENDIAN : ENC_NA);
        /* Name */
        proto_tree_add_item(tag_tree, tag_info->extra->hf_values[0], tvb, offset + 4 + addr_len, taglength - addr_len, ENC_UTF_8);
        if (pi) {
          proto_item_fill_label(PITEM_FINFO(pi), pi_label);
          /* Set top level label TagName: Address Hostname */
          proto_item_append_text(tag_pi, "%s %s", pi_label /* Includes ": " */,
              tvb_get_stringzpad(wmem_packet_scope(), tvb, offset + 4 + addr_len, taglength - addr_len, ENC_UTF_8));
        }

        break;
      }

      default:
        dissected = FALSE;
        break;
      }

      /* If not special case, dissect generically from template */
      if (!dissected) {
        if (IS_FT_INT(tag_ft) || IS_FT_UINT(tag_ft)) {
          tag_pi = proto_tree_add_item(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, ENC_BIG_ENDIAN);
        } else if (IS_FT_STRING(tag_ft)) {
          tag_pi = proto_tree_add_item(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, ENC_UTF_8);
        } else if (IS_FT_TIME(tag_ft)) {
          /*
           * ERF timestamps are conveniently the same as NTP/PTP timestamps but
           * little endian.
           */
          /*
           * FIXME: ENC_TIME_NTP(_BASE_ZERO) | ENC_LITTLE_ENDIAN only swaps the
           * upper and lower 32 bits. Is that a bug or by design? Should add
           * a 'PTP" variant that doesn't round to microseconds and use that
           * here. For now do by hand.
           */
          nstime_t t;
          guint64 ts;

          ts = tvb_get_letoh64(tvb, offset + 4);

          t.secs = (long) (ts >> 32);
          ts  = ((ts & 0xffffffff) * 1000 * 1000 * 1000);
          ts += (ts & 0x80000000) << 1; /* rounding */
          t.nsecs = ((int) (ts >> 32));
          if (t.nsecs >= 1000000000) {
            t.nsecs -= 1000000000;
            t.secs += 1;
          }

          tag_pi = proto_tree_add_time(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, &t);
        } else {
          tag_pi = proto_tree_add_item(section_tree, tag_info->hf_value, tvb, offset + 4, taglength, ENC_NA);
        }
      }
    }

    /* Create subtree for tag if we haven't already */
    if (!tag_tree)
      tag_tree = proto_item_add_subtree(tag_pi, tag_info->ett);

    /* Add tag type field to subtree */
    /*
     * XXX: Formatting value manually because don't have erf_meta_vs_list
     * populated at registration time.
     */
    proto_tree_add_uint_format_value(tag_tree, hf_erf_meta_tag_type, tvb, offset, 2, tagtype, "%s (%u)", val_to_str(tagtype, VALS(wmem_array_get_raw(erf_meta_index.vs_abbrev_list)), "Unknown"), tagtype);
    proto_tree_add_uint(tag_tree, hf_erf_meta_tag_len, tvb, offset + 2, 2, taglength);

    offset += ((taglength + 4) + 0x3) & ~0x3;
  }

  /* Check final section length */
  proto_item_set_len(section_pi, offset - sectionoffset);
  check_section_length(pinfo, sectionlen_pi, offset, sectionoffset, sectionlen);
}

static int
dissect_erf(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
  guint8              flags;
  guint8              erf_type;
  guint32             atm_hdr  = 0;
  proto_tree         *erf_tree;
  proto_item         *erf_item;
  erf_hdlc_type_vals  hdlc_type;
  guint8              first_byte;
  tvbuff_t           *new_tvb;
  guint8              aal2_cid;
  struct atm_phdr     atm_info;

  erf_type=pinfo->pseudo_header->erf.phdr.type & 0x7F;

  col_set_str(pinfo->cinfo, COL_PROTOCOL, "ERF");

  col_add_fstr(pinfo->cinfo, COL_INFO, "%s",
       val_to_str(erf_type, erf_type_vals, "Unknown type %u"));

  erf_item = proto_tree_add_item(tree, proto_erf, tvb, 0, -1, ENC_NA);
  erf_tree = proto_item_add_subtree(erf_item, ett_erf);

  dissect_erf_pseudo_header(tvb, pinfo, erf_tree);
  if (pinfo->pseudo_header->erf.phdr.type & 0x80) {
    dissect_erf_pseudo_extension_header(tvb, pinfo, erf_tree);
    }

  flags = pinfo->pseudo_header->erf.phdr.flags;
  /*
   * Set if frame is Received or Sent.
   * XXX - this is really testing the low-order bit of the capture
   * interface number, so interface 0 is assumed to be capturing
   * in one direction on a bi-directional link, interface 1 is
   * assumed to be capturing in the other direction on that link,
   * and interfaces 2 and 3 are assumed to be capturing in two
   * different directions on another link.  We don't distinguish
   * between the two links.
   */
  pinfo->p2p_dir = ( (flags & 0x01) ? P2P_DIR_RECV : P2P_DIR_SENT);

  switch (erf_type) {

  case ERF_TYPE_RAW_LINK:
    if(sdh_handle) {
      call_dissector(sdh_handle, tvb, pinfo, tree);
    }
    else{
      call_data_dissector(tvb, pinfo, tree);
    }
    break;

  case ERF_TYPE_ETH:
  case ERF_TYPE_COLOR_ETH:
  case ERF_TYPE_DSM_COLOR_ETH:
    dissect_eth_header(tvb, pinfo, erf_tree);
    /* fall through */
  case ERF_TYPE_IPV4:
  case ERF_TYPE_IPV6:
  case ERF_TYPE_INFINIBAND:
  case ERF_TYPE_INFINIBAND_LINK:
    if (!dissector_try_uint(erf_dissector_table, erf_type, tvb, pinfo, tree)) {
      call_data_dissector(tvb, pinfo, tree);
    }
    break;

  case ERF_TYPE_LEGACY:
  case ERF_TYPE_IP_COUNTER:
  case ERF_TYPE_TCP_FLOW_COUNTER:
    /* undefined */
    break;

  case ERF_TYPE_PAD:
    /* Nothing to do */
    break;

  case ERF_TYPE_MC_RAW:
    dissect_mc_raw_header(tvb, pinfo, erf_tree);
    call_data_dissector(tvb, pinfo, tree);
    break;

  case ERF_TYPE_MC_RAW_CHANNEL:
    dissect_mc_rawlink_header(tvb, pinfo, erf_tree);
    call_data_dissector(tvb, pinfo, tree);
    break;

  case ERF_TYPE_MC_ATM:
    dissect_mc_atm_header(tvb, pinfo, erf_tree);
    /* continue with type ATM */

  case ERF_TYPE_ATM:
    memset(&atm_info, 0, sizeof(atm_info));
    atm_hdr = tvb_get_ntohl(tvb, 0);
    atm_info.vpi = ((atm_hdr & 0x0ff00000) >> 20);
    atm_info.vci = ((atm_hdr & 0x000ffff0) >>  4);
    atm_info.channel = (flags & 0x03);

    /* Work around to have decoding working */
    if (erf_rawcell_first) {
      new_tvb = tvb_new_subset_remaining(tvb, ATM_HDR_LENGTH);
      /* Treat this as a (short) ATM AAL5 PDU */
      atm_info.aal = AAL_5;
      switch (erf_aal5_type) {

      case ERF_AAL5_GUESS:
        atm_info.type = TRAF_UNKNOWN;
        atm_info.subtype = TRAF_ST_UNKNOWN;
        /* Try to guess the type according to the first bytes */
        erf_atm_guess_traffic_type(new_tvb, 0, tvb_captured_length(new_tvb), &atm_info);
        break;

      case ERF_AAL5_LLC:
        atm_info.type = TRAF_LLCMX;
        atm_info.subtype = TRAF_ST_UNKNOWN;
        break;

      case ERF_AAL5_UNSPEC:
        atm_info.aal = AAL_5;
        atm_info.type = TRAF_UNKNOWN;
        atm_info.subtype = TRAF_ST_UNKNOWN;
        break;
      }

      call_dissector_with_data(atm_untruncated_handle, new_tvb, pinfo, tree,
                               &atm_info);
    } else {
      /* Treat this as a raw cell */
      atm_info.flags |= ATM_RAW_CELL;
      atm_info.flags |= ATM_NO_HEC;
      atm_info.aal = AAL_UNKNOWN;
      /* can call atm_untruncated because we set ATM_RAW_CELL flag */
      call_dissector_with_data(atm_untruncated_handle, tvb, pinfo, tree,
                               &atm_info);
    }
    break;

  case ERF_TYPE_MC_AAL5:
    dissect_mc_aal5_header(tvb, pinfo, erf_tree);
    /* continue with type AAL5 */

  case ERF_TYPE_AAL5:
    atm_hdr = tvb_get_ntohl(tvb, 0);
    memset(&atm_info, 0, sizeof(atm_info));
    atm_info.vpi = ((atm_hdr & 0x0ff00000) >> 20);
    atm_info.vci = ((atm_hdr & 0x000ffff0) >>  4);
    atm_info.channel = (flags & 0x03);

    new_tvb = tvb_new_subset_remaining(tvb, ATM_HDR_LENGTH);
    /* Work around to have decoding working */
    atm_info.aal = AAL_5;
    switch (erf_aal5_type) {

    case ERF_AAL5_GUESS:
      atm_info.type = TRAF_UNKNOWN;
      atm_info.subtype = TRAF_ST_UNKNOWN;
      /* Try to guess the type according to the first bytes */
      erf_atm_guess_traffic_type(new_tvb, 0, tvb_captured_length(new_tvb), &atm_info);
      break;

    case ERF_AAL5_LLC:
      atm_info.type = TRAF_LLCMX;
      atm_info.subtype = TRAF_ST_UNKNOWN;
      break;

    case ERF_AAL5_UNSPEC:
      atm_info.aal = AAL_5;
      atm_info.type = TRAF_UNKNOWN;
      atm_info.subtype = TRAF_ST_UNKNOWN;
      break;
    }

    call_dissector_with_data(atm_untruncated_handle, new_tvb, pinfo, tree,
                             &atm_info);
    break;

  case ERF_TYPE_MC_AAL2:
    dissect_mc_aal2_header(tvb, pinfo, erf_tree);

    /*
     * Most of the information is in the ATM header; fetch it.
     */
    atm_hdr = tvb_get_ntohl(tvb, 0);

    /*
     * The channel identification number is in the MC header, so it's
     * in the pseudo-header, not in the packet data.
     */
    aal2_cid = (pinfo->pseudo_header->erf.subhdr.mc_hdr & MC_AAL2_CID_MASK) >> MC_AAL2_CID_SHIFT;

    /* Zero out and fill in the ATM pseudo-header. */
    memset(&atm_info, 0, sizeof(atm_info));
    atm_info.aal = AAL_2;
    atm_info.flags |= ATM_AAL2_NOPHDR;
    atm_info.vpi = ((atm_hdr & 0x0ff00000) >> 20);
    atm_info.vci = ((atm_hdr & 0x000ffff0) >>  4);
    atm_info.channel = (flags & 0x03);
    atm_info.aal2_cid = aal2_cid;
    atm_info.type = TRAF_UNKNOWN;
    atm_info.subtype = TRAF_ST_UNKNOWN;

    /* remove ATM cell header from tvb */
    new_tvb = tvb_new_subset_remaining(tvb, ATM_HDR_LENGTH);
    call_dissector_with_data(atm_untruncated_handle, new_tvb, pinfo, tree,
                             &atm_info);
    break;

  case ERF_TYPE_AAL2:
    dissect_aal2_header(tvb, pinfo, erf_tree);

    /*
     * Most of the information is in the ATM header; fetch it.
     */
    atm_hdr = tvb_get_ntohl(tvb, 0);

    /*
     * The channel identification number is in the AAL2 header, so it's
     * in the pseudo-header, not in the packet data.
     */
    aal2_cid = (pinfo->pseudo_header->erf.subhdr.aal2_hdr & AAL2_CID_MASK) >> AAL2_CID_SHIFT;

    /* Zero out and fill in the ATM pseudo-header. */
    memset(&atm_info, 0, sizeof(atm_info));
    atm_info.aal = AAL_2;
    atm_info.flags |= ATM_AAL2_NOPHDR;
    atm_info.vpi = ((atm_hdr & 0x0ff00000) >> 20);
    atm_info.vci = ((atm_hdr & 0x000ffff0) >>  4);
    atm_info.channel = (flags & 0x03);
    atm_info.aal2_cid = aal2_cid;
    atm_info.type = TRAF_UNKNOWN;
    atm_info.subtype = TRAF_ST_UNKNOWN;

    /* remove ATM cell header from tvb */
    new_tvb = tvb_new_subset_remaining(tvb, ATM_HDR_LENGTH);
    call_dissector_with_data(atm_untruncated_handle, new_tvb, pinfo, tree,
                             &atm_info);
    break;

  case ERF_TYPE_MC_HDLC:
    dissect_mc_hdlc_header(tvb, pinfo, erf_tree);
    /* continue with type HDLC */

  case ERF_TYPE_HDLC_POS:
  case ERF_TYPE_COLOR_HDLC_POS:
  case ERF_TYPE_DSM_COLOR_HDLC_POS:
  case ERF_TYPE_COLOR_MC_HDLC_POS:
    hdlc_type = (erf_hdlc_type_vals)erf_hdlc_type;

    if (hdlc_type == ERF_HDLC_GUESS) {
      /* Try to guess the type. */
      first_byte = tvb_get_guint8(tvb, 0);
      if (first_byte == 0x0f || first_byte == 0x8f)
        hdlc_type = ERF_HDLC_CHDLC;
      else {
        /* Anything to check for to recognize Frame Relay or MTP2?
           Should we require PPP packets to begin with FF 03? */
        hdlc_type = ERF_HDLC_PPP;
      }
    }
    /* Clean the pseudo header (if used in subdissector) and call the
       appropriate subdissector. */
    switch (hdlc_type) {
    case ERF_HDLC_CHDLC:
      call_dissector(chdlc_handle, tvb, pinfo, tree);
      break;
    case ERF_HDLC_PPP:
      call_dissector(ppp_handle, tvb, pinfo, tree);
      break;
    case ERF_HDLC_FRELAY:
      memset(&pinfo->pseudo_header->x25, 0, sizeof(pinfo->pseudo_header->x25));
      call_dissector(frelay_handle, tvb, pinfo, tree);
      break;
    case ERF_HDLC_MTP2:
      /* not used, but .. */
      memset(&pinfo->pseudo_header->mtp2, 0, sizeof(pinfo->pseudo_header->mtp2));
      call_dissector(mtp2_handle, tvb, pinfo, tree);
      break;
    default:
      break;
    }
    break;

  case ERF_TYPE_META:
    dissect_meta_record_tags(tvb, pinfo, erf_tree);
    break;

  default:
    break;
  } /* erf type */
  return tvb_captured_length(tvb);
}

static void erf_init_dissection(void)
{
  erf_state.implicit_host_id = 0;
  erf_state.source_map = wmem_map_new(wmem_file_scope(), wmem_int64_hash, g_int64_equal);
  /* Old map is freed automatically */
}

void
proto_register_erf(void)
{

  static hf_register_info hf[] = {
    /* ERF Header */
    { &hf_erf_ts,
      { "Timestamp", "erf.ts",
        FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_rectype,
      { "Record type", "erf.types",
        FT_UINT8, BASE_HEX,  NULL, 0x0, NULL, HFILL } },
    { &hf_erf_type,
      { "Type", "erf.types.type",
        FT_UINT8, BASE_DEC,  VALS(erf_type_vals), ERF_HDR_TYPE_MASK, NULL, HFILL } },
    { &hf_erf_ehdr,
      { "Extension header present", "erf.types.ext_header",
        FT_UINT8, BASE_DEC,  NULL, ERF_HDR_EHDR_MASK, NULL, HFILL } },
    { &hf_erf_flags,
      { "Flags", "erf.flags",
        FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_flags_cap,
      { "Capture interface", "erf.flags.cap",
        FT_UINT8, BASE_DEC, NULL, ERF_HDR_CAP_MASK, NULL, HFILL } },
    { &hf_erf_flags_vlen,
      { "Varying record length", "erf.flags.vlen",
        FT_UINT8, BASE_DEC, NULL, ERF_HDR_VLEN_MASK, NULL, HFILL } },
    { &hf_erf_flags_trunc,
      { "Truncated", "erf.flags.trunc",
        FT_UINT8, BASE_DEC, NULL, ERF_HDR_TRUNC_MASK, NULL, HFILL } },
    { &hf_erf_flags_rxe,
      { "RX error", "erf.flags.rxe",
        FT_UINT8, BASE_DEC, NULL, ERF_HDR_RXE_MASK, NULL, HFILL } },
    { &hf_erf_flags_dse,
      { "DS error", "erf.flags.dse",
        FT_UINT8, BASE_DEC, NULL, ERF_HDR_DSE_MASK, NULL, HFILL } },
    { &hf_erf_flags_res,
       { "Reserved", "erf.flags.res",
         FT_UINT8, BASE_HEX, NULL, ERF_HDR_RES_MASK, NULL, HFILL } },
     { &hf_erf_rlen,
       { "Record length", "erf.rlen",
         FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
     { &hf_erf_lctr,
       { "Loss counter", "erf.lctr",
         FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
     { &hf_erf_wlen,
       { "Wire length", "erf.wlen",
         FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_ehdr_t,
      { "Extension Header", "erf.ehdr.types",
        FT_UINT8, BASE_DEC, VALS(ehdr_type_vals), 0x0, NULL, HFILL } },

    /* Intercept ID Extension Header */
    { &hf_erf_ehdr_int_res1,
      { "Reserved", "erf.ehdr.int.res1",
        FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_ehdr_int_id,
      { "Intercept ID", "erf.ehdr.int.intid",
        FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_ehdr_int_res2,
      { "Reserved", "erf.ehdr.int.res2",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },

    /* Raw Link Extension Header */
    { &hf_erf_ehdr_raw_link_res,
      { "Reserved", "erf.ehdr.raw.res",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_ehdr_raw_link_seqnum,
      { "Sequence number", "erf.ehdr.raw.seqnum",
        FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_ehdr_raw_link_rate,
      { "Rate", "erf.ehdr.raw.rate",
        FT_UINT8, BASE_DEC, VALS(raw_link_rates), 0x0, NULL, HFILL } },
    { &hf_erf_ehdr_raw_link_type,
      { "Link Type", "erf.ehdr.raw.link_type",
        FT_UINT8, BASE_DEC, VALS(raw_link_types), 0x0, NULL, HFILL } },

    /* Classification Extension Header */
    { &hf_erf_ehdr_class_flags,
      { "Flags", "erf.ehdr.class.flags",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_ehdr_class_flags_sh,
      { "Search hit", "erf.ehdr.class.flags.sh",
        FT_UINT32, BASE_DEC, NULL, EHDR_CLASS_SH_MASK, NULL, HFILL } },
    { &hf_erf_ehdr_class_flags_shm,
      { "Multiple search hits", "erf.ehdr.class.flags.shm",
        FT_UINT32, BASE_DEC, NULL, EHDR_CLASS_SHM_MASK, NULL, HFILL } },
    { &hf_erf_ehdr_class_flags_res1,
      { "Reserved", "erf.ehdr.class.flags.res1",
        FT_UINT32, BASE_HEX, NULL, EHDR_CLASS_RES1_MASK, NULL, HFILL } },
    { &hf_erf_ehdr_class_flags_user,
      { "User classification", "erf.ehdr.class.flags.user",
        FT_UINT32, BASE_DEC, NULL, EHDR_CLASS_USER_MASK, NULL, HFILL } },
    { &hf_erf_ehdr_class_flags_res2,
      { "Reserved", "erf.ehdr.class.flags.res2",
        FT_UINT32, BASE_HEX, NULL, EHDR_CLASS_RES2_MASK, NULL, HFILL } },
    { &hf_erf_ehdr_class_flags_drop,
      { "Drop Steering Bit", "erf.ehdr.class.flags.drop",
        FT_UINT32, BASE_DEC, NULL, EHDR_CLASS_DROP_MASK, NULL, HFILL } },
    { &hf_erf_ehdr_class_flags_str,
      { "Stream Steering Bits", "erf.ehdr.class.flags.str",
        FT_UINT32, BASE_DEC, NULL, EHDR_CLASS_STER_MASK, NULL, HFILL } },
    { &hf_erf_ehdr_class_seqnum,
      { "Sequence number", "erf.ehdr.class.seqnum",
        FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } },

    /* BFS Extension Header */
    { &hf_erf_ehdr_bfs_hash,
      { "Hash", "erf.ehdr.bfs.hash",
        FT_UINT8, BASE_HEX, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_bfs_color,
      { "Filter Color", "erf.ehdr.bfs.color",
        FT_UINT16, BASE_HEX, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_bfs_raw_hash,
      { "Raw Hash", "erf.ehdr.bfs.rawhash",
        FT_UINT32, BASE_HEX, NULL, 0, NULL, HFILL } },

    /* Channelised Extension Header */
    { &hf_erf_ehdr_chan_morebits,
      { "More Bits", "erf.ehdr.chan.morebits",
        FT_BOOLEAN, BASE_NONE, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_chan_morefrag,
      { "More Fragments", "erf.ehdr.chan.morefrag",
        FT_BOOLEAN, BASE_NONE, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_chan_seqnum,
      { "Sequence Number", "erf.ehdr.chan.seqnum",
        FT_UINT16, BASE_DEC, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_chan_res,
      { "Reserved", "erf.ehdr.chan.res",
        FT_UINT8, BASE_HEX, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_chan_virt_container_id,
      { "Virtual Container ID", "erf.ehdr.chan.vcid",
        FT_UINT8, BASE_HEX, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_chan_assoc_virt_container_size,
      { "Associated Virtual Container Size", "erf.ehdr.chan.vcsize",
        FT_UINT8, BASE_HEX, VALS(channelised_assoc_virt_container_size), 0, NULL, HFILL } },
    { &hf_erf_ehdr_chan_rate,
      { "Origin Line Type/Rate", "erf.ehdr.chan.rate",
        FT_UINT8, BASE_HEX, VALS(channelised_rate), 0, NULL, HFILL } },
    { &hf_erf_ehdr_chan_type,
      { "Frame Part Type", "erf.ehdr.chan.type",
        FT_UINT8, BASE_HEX, VALS(channelised_type), 0, NULL, HFILL } },

    /* Signature Extension Header */
    { &hf_erf_ehdr_signature_payload_hash,
      { "Payload Hash", "erf.ehdr.signature.payloadhash",
        FT_UINT24, BASE_HEX, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_signature_color,
      { "Filter Color", "erf.ehdr.signature.color",
        FT_UINT8, BASE_HEX, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_signature_flow_hash,
      { "Flow Hash", "erf.ehdr.signature.flowhash",
        FT_UINT24, BASE_HEX, NULL, 0, NULL, HFILL } },

    /* Flow ID Extension Header */
    { &hf_erf_ehdr_flow_id_source_id,
      { "Source ID", "erf.ehdr.flowid.sourceid",
        FT_UINT8, BASE_DEC, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_flow_id_hash_type,
      { "Hash Type", "erf.ehdr.flowid.hashtype",
        FT_UINT8, BASE_HEX, VALS(erf_hash_type), 0, NULL, HFILL } },
    { &hf_erf_ehdr_flow_id_stack_type,
      { "Stack Type", "erf.ehdr.flowid.stacktype",
        FT_UINT8, BASE_HEX, VALS(erf_stack_type), 0, NULL, HFILL } },
    { &hf_erf_ehdr_flow_id_flow_hash,
      { "Flow Hash", "erf.ehdr.flowid.flowhash",
        FT_UINT32, BASE_HEX, NULL, 0, NULL, HFILL } },

    /* Host ID Extension Header */
    { &hf_erf_ehdr_host_id_sourceid,
      { "Source ID", "erf.ehdr.hostid.sourceid",
        FT_UINT8, BASE_DEC, NULL, 0, NULL, HFILL } },
    { &hf_erf_ehdr_host_id_hostid,
      { "Host ID", "erf.ehdr.hostid.hostid",
        FT_UINT48, BASE_HEX, NULL, 0, NULL, HFILL } },

    /* Generated fields for navigating Host ID/Source ID */
    { &hf_erf_sourceid,
      { "Source ID", "erf.sourceid",
        FT_UINT8, BASE_DEC, NULL, 0, NULL, HFILL } },
    { &hf_erf_hostid,
      { "Host ID", "erf.hostid",
        FT_UINT48, BASE_HEX, NULL, 0, NULL, HFILL } },
    { &hf_erf_source_current,
      { "Next Metadata in Source", "erf.source_meta_frame_current",
        FT_FRAMENUM, BASE_NONE, NULL, 0, NULL, HFILL } },
    { &hf_erf_source_next,
      { "Next Metadata in Source", "erf.source_meta_frame_next",
        FT_FRAMENUM, BASE_NONE, NULL, 0, NULL, HFILL } },
    { &hf_erf_source_prev,
      { "Previous Metadata in Source", "erf.source_meta_frame_prev",
        FT_FRAMENUM, BASE_NONE, NULL, 0, NULL, HFILL } },

    /* Unknown Extension Header */
    { &hf_erf_ehdr_unk,
      { "Data", "erf.ehdr.unknown.data",
        FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL } },

    /* MC HDLC Header */
    { &hf_erf_mc_hdlc,
      { "Multi Channel HDLC Header", "erf.mchdlc",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_mc_hdlc_cn,
      { "Connection number", "erf.mchdlc.cn",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_CN_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_res1,
      { "Reserved", "erf.mchdlc.res1",
        FT_UINT32, BASE_HEX, NULL, MC_HDLC_RES1_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_res2,
      { "Reserved", "erf.mchdlc.res2",
        FT_UINT32, BASE_HEX, NULL, MC_HDLC_RES2_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_fcse,
      { "FCS error", "erf.mchdlc.fcse",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_FCSE_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_sre,
      { "Short record error", "erf.mchdlc.sre",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_SRE_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_lre,
      { "Long record error", "erf.mchdlc.lre",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_LRE_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_afe,
      { "Aborted frame error", "erf.mchdlc.afe",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_AFE_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_oe,
      { "Octet error", "erf.mchdlc.oe",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_OE_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_lbe,
      { "Lost byte error", "erf.mchdlc.lbe",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_LBE_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_first,
      { "First record", "erf.mchdlc.first",
        FT_UINT32, BASE_DEC, NULL, MC_HDLC_FIRST_MASK, NULL, HFILL } },
    { &hf_erf_mc_hdlc_res3,
      { "Reserved", "erf.mchdlc.res3",
        FT_UINT32, BASE_HEX, NULL, MC_HDLC_RES3_MASK, NULL, HFILL } },

    /* MC RAW Header */
    { &hf_erf_mc_raw,
      { "Multi Channel RAW Header", "erf.mcraw",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_mc_raw_int,
      { "Physical interface", "erf.mcraw.int",
        FT_UINT32, BASE_DEC, NULL, MC_RAW_INT_MASK, NULL, HFILL } },
    { &hf_erf_mc_raw_res1,
      { "Reserved", "erf.mcraw.res1",
        FT_UINT32, BASE_HEX, NULL, MC_RAW_RES1_MASK, NULL, HFILL } },
    { &hf_erf_mc_raw_sre,
      { "Short record error", "erf.mcraw.sre",
        FT_UINT32, BASE_DEC, NULL, MC_RAW_SRE_MASK, NULL, HFILL } },
    { &hf_erf_mc_raw_lre,
      { "Long record error", "erf.mcraw.lre",
        FT_UINT32, BASE_DEC, NULL, MC_RAW_LRE_MASK, NULL, HFILL } },
    { &hf_erf_mc_raw_res2,
      { "Reserved", "erf.mcraw.res2",
        FT_UINT32, BASE_HEX, NULL, MC_RAW_RES2_MASK, NULL, HFILL } },
    { &hf_erf_mc_raw_lbe,
      { "Lost byte error", "erf.mcraw.lbe",
        FT_UINT32, BASE_DEC, NULL, MC_RAW_LBE_MASK, NULL, HFILL } },
    { &hf_erf_mc_raw_first,
      { "First record", "erf.mcraw.first",
        FT_UINT32, BASE_DEC, NULL, MC_RAW_FIRST_MASK, NULL, HFILL } },
    { &hf_erf_mc_raw_res3,
      { "Reserved", "erf.mcraw.res3",
        FT_UINT32, BASE_HEX, NULL, MC_RAW_RES3_MASK, NULL, HFILL } },

    /* MC ATM Header */
    { &hf_erf_mc_atm,
      { "Multi Channel ATM Header", "erf.mcatm",
        FT_UINT32, BASE_HEX, NULL, 0x00, NULL, HFILL } },
    { &hf_erf_mc_atm_cn,
      { "Connection number", "erf.mcatm.cn",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_CN_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_res1,
      { "Reserved", "erf.mcatm.res1",
        FT_UINT32, BASE_HEX, NULL, MC_ATM_RES1_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_mul,
      { "Multiplexed", "erf.mcatm.mul",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_MUL_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_port,
      { "Physical port", "erf.mcatm.port",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_PORT_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_res2,
      { "Reserved", "erf.mcatm.res2",
        FT_UINT32, BASE_HEX, NULL, MC_ATM_RES2_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_lbe,
      { "Lost Byte Error", "erf.mcatm.lbe",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_LBE_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_hec,
      { "HEC corrected", "erf.mcatm.hec",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_HEC_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_crc10,
      { "OAM Cell CRC10 Error (not implemented)", "erf.mcatm.crc10",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_CRC10_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_oamcell,
      { "OAM Cell", "erf.mcatm.oamcell",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_OAMCELL_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_first,
      { "First record", "erf.mcatm.first",
        FT_UINT32, BASE_DEC, NULL, MC_ATM_FIRST_MASK, NULL, HFILL } },
    { &hf_erf_mc_atm_res3,
      { "Reserved", "erf.mcatm.res3",
        FT_UINT32, BASE_HEX, NULL, MC_ATM_RES3_MASK, NULL, HFILL } },

    /* MC RAW Link Header */
    { &hf_erf_mc_rawl,
      { "Multi Channel RAW Link Header", "erf.mcrawl",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_mc_rawl_cn,
      { "Connection number", "erf.mcrawl.cn",
        FT_UINT32, BASE_DEC, NULL, MC_RAWL_CN_MASK, NULL, HFILL } },
    { &hf_erf_mc_rawl_res1,
      { "Reserved", "erf.mcrawl.res1",
        FT_UINT32, BASE_HEX, NULL, MC_RAWL_RES2_MASK, NULL, HFILL } },
    { &hf_erf_mc_rawl_lbe,
      { "Lost byte error", "erf.mcrawl.lbe",
        FT_UINT32, BASE_DEC, NULL, MC_RAWL_LBE_MASK, NULL, HFILL } },
    { &hf_erf_mc_rawl_first,
      { "First record", "erf.mcrawl.first",
        FT_UINT32, BASE_DEC, NULL, MC_RAWL_FIRST_MASK, NULL, HFILL } },
    { &hf_erf_mc_rawl_res2,
      { "Reserved", "erf.mcrawl.res2",
        FT_UINT32, BASE_HEX, NULL, MC_RAWL_RES2_MASK, NULL, HFILL } },

    /* MC AAL5 Header */
    { &hf_erf_mc_aal5,
      { "Multi Channel AAL5 Header", "erf.mcaal5",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_mc_aal5_cn,
      { "Connection number", "erf.mcaal5.cn",
        FT_UINT32, BASE_DEC, NULL, MC_AAL5_CN_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_res1,
      { "Reserved", "erf.mcaal5.res1",
        FT_UINT32, BASE_HEX, NULL, MC_AAL5_RES1_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_port,
      { "Physical port", "erf.mcaal5.port",
        FT_UINT32, BASE_DEC, NULL, MC_AAL5_PORT_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_crcck,
      { "CRC checked", "erf.mcaal5.crcck",
        FT_UINT32, BASE_DEC, NULL, MC_AAL5_CRCCK_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_crce,
      { "CRC error", "erf.mcaal5.crce",
        FT_UINT32, BASE_DEC, NULL, MC_AAL5_CRCE_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_lenck,
      { "Length checked", "erf.mcaal5.lenck",
        FT_UINT32, BASE_DEC, NULL, MC_AAL5_LENCK_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_lene,
      { "Length error", "erf.mcaal5.lene",
        FT_UINT32, BASE_DEC, NULL, MC_AAL5_LENE_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_res2,
      { "Reserved", "erf.mcaal5.res2",
        FT_UINT32, BASE_HEX, NULL, MC_AAL5_RES2_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_first,
      { "First record", "erf.mcaal5.first",
        FT_UINT32, BASE_DEC, NULL, MC_AAL5_FIRST_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal5_res3,
      { "Reserved", "erf.mcaal5.res3",
        FT_UINT32, BASE_HEX, NULL, MC_AAL5_RES3_MASK, NULL, HFILL } },

    /* MC AAL2 Header */
    { &hf_erf_mc_aal2,
      { "Multi Channel AAL2 Header", "erf.mcaal2",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_mc_aal2_cn,
      { "Connection number", "erf.mcaal2.cn",
        FT_UINT32, BASE_DEC, NULL, MC_AAL2_CN_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_res1,
      { "Reserved for extra connection", "erf.mcaal2.res1",
        FT_UINT32, BASE_HEX, NULL, MC_AAL2_RES1_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_res2,
      { "Reserved for type", "erf.mcaal2.mul",
        FT_UINT32, BASE_HEX, NULL, MC_AAL2_RES2_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_port,
      { "Physical port", "erf.mcaal2.port",
        FT_UINT32, BASE_DEC, NULL, MC_AAL2_PORT_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_res3,
      { "Reserved", "erf.mcaal2.res2",
        FT_UINT32, BASE_HEX, NULL, MC_AAL2_RES3_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_first,
      { "First cell received", "erf.mcaal2.lbe",
        FT_UINT32, BASE_DEC, NULL, MC_AAL2_FIRST_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_maale,
      { "MAAL error", "erf.mcaal2.hec",
        FT_UINT32, BASE_DEC, NULL, MC_AAL2_MAALE_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_lene,
      { "Length error", "erf.mcaal2.crc10",
        FT_UINT32, BASE_DEC, NULL, MC_AAL2_LENE_MASK, NULL, HFILL } },
    { &hf_erf_mc_aal2_cid,
      { "Channel Identification Number", "erf.mcaal2.cid",
        FT_UINT32, BASE_DEC, NULL, MC_AAL2_CID_MASK, NULL, HFILL } },

    /* AAL2 Header */
    { &hf_erf_aal2,
      { "AAL2 Header", "erf.aal2",
        FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_aal2_cid,
      { "Channel Identification Number", "erf.aal2.cid",
        FT_UINT32, BASE_DEC, NULL, AAL2_CID_MASK, NULL, HFILL } },
    { &hf_erf_aal2_maale,
      { "MAAL error number", "erf.aal2.maale",
        FT_UINT32, BASE_DEC, NULL, AAL2_MAALE_MASK, NULL, HFILL } },
    { &hf_erf_aal2_maalei,
      { "MAAL error", "erf.aal2.hec",
        FT_UINT32, BASE_DEC, NULL, AAL2_MAALEI_MASK, NULL, HFILL } },
    { &hf_erf_aal2_first,
      { "First cell received", "erf.aal2.lbe",
        FT_UINT32, BASE_DEC, NULL, AAL2_FIRST_MASK, NULL, HFILL } },
    { &hf_erf_aal2_res1,
      { "Reserved", "erf.aal2.res1",
        FT_UINT32, BASE_HEX, NULL, AAL2_RES1_MASK, NULL, HFILL } },

    /* ETH Header */
    { &hf_erf_eth,
      { "Ethernet pad", "erf.eth",
        FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_eth_off,
      { "Offset", "erf.eth.off",
        FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_eth_pad,
      { "Padding", "erf.eth.pad",
        FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } },

    /* MetaERF record unknown tags */
    { &hf_erf_meta_tag_type,
      { "Tag Type", "erf.meta.tag.type",
        FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_meta_tag_len,
      { "Tag Length", "erf.meta.tag.len",
        FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
    { &hf_erf_meta_tag_unknown,
      { "Value", "erf.meta.unknown",
        FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }
  };

  static gint *ett[] = {
    &ett_erf,
    &ett_erf_pseudo_hdr,
    &ett_erf_rectype,
    &ett_erf_flags,
    &ett_erf_mc_hdlc,
    &ett_erf_mc_raw,
    &ett_erf_mc_atm,
    &ett_erf_mc_rawlink,
    &ett_erf_mc_aal5,
    &ett_erf_mc_aal2,
    &ett_erf_aal2,
    &ett_erf_eth,
    &ett_erf_meta,
    &ett_erf_meta_tag,
    &ett_erf_source
  };

  static const enum_val_t erf_hdlc_options[] = {
    { "chdlc",  "Cisco HDLC",       ERF_HDLC_CHDLC },
    { "ppp",    "PPP serial",       ERF_HDLC_PPP },
    { "frelay", "Frame Relay",      ERF_HDLC_FRELAY },
    { "mtp2",   "SS7 MTP2",         ERF_HDLC_MTP2 },
    { "guess",  "Attempt to guess", ERF_HDLC_GUESS },
    { NULL, NULL, 0 }
  };

  static const enum_val_t erf_aal5_options[] = {
    { "guess", "Attempt to guess", ERF_AAL5_GUESS },
    { "llc",   "LLC multiplexed",  ERF_AAL5_LLC },
    { "unspec", "Unspecified", ERF_AAL5_UNSPEC },
    { NULL, NULL, 0 }
  };

  static ei_register_info ei[] = {
      { &ei_erf_checksum_error, { "erf.checksum.error", PI_CHECKSUM, PI_ERROR, "ERF MC FCS Error", EXPFILL }},
      { &ei_erf_packet_loss, { "erf.packet_loss", PI_SEQUENCE, PI_WARN, "Packet loss occurred between previous and current packet", EXPFILL }},
      { &ei_erf_extension_headers_not_shown, { "erf.ehdr.more_not_shown", PI_SEQUENCE, PI_WARN, "More extension headers were present, not shown", EXPFILL }},
      { &ei_erf_meta_section_len_error, { "erf.meta.section_len.error", PI_PROTOCOL, PI_ERROR, "MetaERF Section Length incorrect", EXPFILL }},
      { &ei_erf_meta_reset, { "erf.meta.metadata_reset", PI_PROTOCOL, PI_WARN, "MetaERF metadata reset", EXPFILL }}
  };

  module_t *erf_module;
  expert_module_t* expert_erf;

  proto_erf = proto_register_protocol("Extensible Record Format", "ERF", "erf");
  erf_handle = register_dissector("erf", dissect_erf, proto_erf);

  init_meta_tags();

  proto_register_field_array(proto_erf, hf, array_length(hf));
  proto_register_subtree_array(ett, array_length(ett));
  expert_erf = expert_register_protocol(proto_erf);
  expert_register_field_array(expert_erf, ei, array_length(ei));

  /* Register per-section MetaERF fields */
  proto_register_field_array(proto_erf, (hf_register_info*) wmem_array_get_raw(erf_meta_index.hfri), (int) wmem_array_get_count(erf_meta_index.hfri));
  proto_register_subtree_array((gint**) wmem_array_get_raw(erf_meta_index.ett), (int) wmem_array_get_count(erf_meta_index.ett));

  erf_module = prefs_register_protocol(proto_erf, NULL);

  prefs_register_enum_preference(erf_module, "hdlc_type", "ERF_HDLC Layer 2",
                                 "Protocol encapsulated in HDLC records",
                                 &erf_hdlc_type, erf_hdlc_options, FALSE);

  prefs_register_bool_preference(erf_module, "rawcell_first",
                                 "Raw ATM cells are first cell of AAL5 PDU",
                                 "Whether raw ATM cells should be treated as "
                                 "the first cell of an AAL5 PDU",
                                 &erf_rawcell_first);

  prefs_register_enum_preference(erf_module, "aal5_type",
                                 "ATM AAL5 packet type",
                                 "Protocol encapsulated in ATM AAL5 packets",
                                 &erf_aal5_type, erf_aal5_options, FALSE);

  prefs_register_bool_preference(erf_module, "ethfcs",
                                 "Ethernet packets have FCS",
                                 "Whether the FCS is present in Ethernet packets",
                                 &erf_ethfcs);

  erf_dissector_table = register_dissector_table("erf.types.type", "Type", proto_erf, FT_UINT8, BASE_DEC, DISSECTOR_TABLE_NOT_ALLOW_DUPLICATE);

  register_init_routine(erf_init_dissection);
  /* No extra cleanup needed */
}

void
proto_reg_handoff_erf(void)
{
  dissector_add_uint("wtap_encap", WTAP_ENCAP_ERF, erf_handle);
  /* Also register dissector for MetaERF non-packet records */
  dissector_add_uint("wtap_fts_rec", WTAP_FILE_TYPE_SUBTYPE_ERF, erf_handle);

  /* Get handles for serial line protocols */
  chdlc_handle  = find_dissector_add_dependency("chdlc", proto_erf);
  ppp_handle    = find_dissector_add_dependency("ppp_hdlc", proto_erf);
  frelay_handle = find_dissector_add_dependency("fr", proto_erf);
  mtp2_handle   = find_dissector_add_dependency("mtp2_with_crc", proto_erf);

  /* Get handle for ATM dissector */
  atm_untruncated_handle = find_dissector_add_dependency("atm_untruncated", proto_erf);

  sdh_handle = find_dissector_add_dependency("sdh", proto_erf);
}

/*
 * Editor modelines  -  http://www.wireshark.org/tools/modelines.html
 *
 * Local Variables:
 * c-basic-offset: 2
 * tab-width: 8
 * indent-tabs-mode: nil
 * End:
 *
 * ex: set shiftwidth=2 tabstop=8 expandtab:
 * :indentSize=2:tabSize=8:noTabs=true:
 */